UNIVERSITY OF MARYLAND · Ho Jung Paik June, 2017 Research Professor I ... "Proof Mass Support and Sensing System," British Patent Application Nos. 9419649.0

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CURRICULUM VITA

Ho Jung Paik June, 2017

Research Professor

I. Personal Data:

Birth: March 25, 1944, Korea

Marital Status: Married

Citizenship: USA

II. Education:

B.S. in physics Seoul Nat’l University, Korea February 1966

M.S. in physics Stanford University June 1970

Ph.D. in physic Stanford University August 1974

III. Experience in Higher Education:

1974-78 Stanford University,

Dept. of Physics Research Associate

1978-83 University of Maryland,

Dept. of Physics and Astronomy Assistant Professor


Dept. of Physics and Astronomy Associate Professor


Dept. of Physics Visiting Assoc. Professor


Dept. of Physics Professor


Dept. of Physics Visiting Professor

2005-06 Seoul National University,

School of Physics Visiting Professor

2010- Chinese Academy of Sciences &

Huazhong University of Science Visiting Professor

and Technology

2011- University of Maryland Professor Emeritus and

Dept. of Physics Research Professor

IV. Publications:

62 papers published in refereed journals

73 papers published in conference proceedings

16 papers published in books

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V. Professional Service:

Member of the American Physical Society (1978-present)

Referee for the Physical Review, Physical Review Letters, Journal of Applied Physics,

Journal of Physics, Physics Letters, and other journals (1974-present)

Reviewer of research proposals for NSF, NASA, DOE and others (1978-present)

Interagency Gravity Gradiometer Study Team (NASA, Air Force, Army, JPL, MIT and

University of Maryland) (1985-91)

Science Coordinating Committee for NASA Experimental Gravitation Program

(1988-93)

NASA Ad Hoc Committee on Gravitation Physics and Astronomy (1989-1991)

Science Teams for STEP Mission (Satellite Test of the Equivalence Principle) (1992-96)

Science Team for GEOID Mission (Gravity for Earth, Ocean, & Ice Dynamics) (1996-97)

Dutch Science Foundation Review Panel for GRAIL (Gravitation Radiation Antenna In

Leiden) R&D Proposal (1997)

Proposal Review Panel for NASA Astrophysics Division (1998)

International Organizing Committee for the International Conference on Gravitation and

Astrophysics (1993-present)

Pre-Phase A Study Team for DRS Mission (Disturbance Reduction System) (2001)

Vice-President and President of Association of Korean Physicists in America (2003-

2007)

Distinguished Visiting Scientist to Jet Propulsion Laboratory (2004-2008)

Main Scientific Organizer for Tests of General Relativity in COSPAR, Paris (2004)

National Academy of Sciences and Space Science Board Committee on Nuclear

Propulsion and Power Generation (2004-2005)

Organizing Committee Co-Chair for KPS/AKPA (Korean Physical Society/ Association

of Korean Physicists in America) Joint Einstein Conference, Seoul (2005)

Physics Councilor for Korean-American Scientists and Engineers Association (2005-

2008)

Editor for on-line newsletters KASTN (Korean-American Science & Technology News)

and IEKAS (Information Exchange for Korean-American Scholars) (2005-present)

International Organizing Committee for COSPAR, Beijing (2006)

Organizing Committee of the International Conference “From Quantum to Cosmos:

Fundamental Physics Research in Space” (Warrington, Virginia, April 2006)

Organizer and Co-Chair of Contemporary Basic Science session for US-Korea

Conference 2007, hosted by Korean-American Scientists and Engineers

Association (2007)

Organizing Committee of the International Conference “From Quantum to Cosmos III:

Space-Based Research in Fundamental Physics” (Warrington, Virginia, July 2008)

Proposal Review Panels for NASA Astrophysics and Planetary Sciences (2008-present),

chairing the panel (2008, 2009, 2017)

External Review Team for KAGRA Gravitational Wave Detector Project (2015)

VI. Community Service:

“Einstein and the Universe,” Einstein centennial lecture at T.C. Williams High School,

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Alexandria, VA (March 14, 1979)

“Experimental Search for a Fifth Force in Nature,” Special lecture for TV audience,

filmed by KBS TV from Seoul, Korea (June 9, 1986)

“Einstein’s Relativity and the Expanding Universe,” Public lecture to the Korean

community in celebration of the World Year of Physics, at the University of

Maryland, College Park, MD (October 15, 2005)


community, at Stanford University, Stanford, CA (October 21, 2006)


community, in Atlanta, GA (November 19, 2006)

“Detection of Gravitational Waves,” Interview with Voice of America (February 15,

2016)

VII. Honors and Awards:

Stanford Fellowship (1968-1969)

Honorable Mention for Essay on Gravity, Gravity Research Foundation (1974, 1979)

Faculty Research Grant, University of Maryland (Spring, 1981)

Alfred Sloan Fellowship (September, 1981-September, 1983)

NASA Certificates (2) of Recognition for Tech Briefs Publication on Superconducting

Gravity Gradiometer and Superconducting Six-Axis Accelerometer (1986)

General Research Board Faculty Awards, University of Maryland (Fall, 1995; Fall, 2002)

Distinguished Visiting Scientist to Jet Propulsion Laboratory (2004-2008)

Fellow of American Physical Society (2004)

General Research Board Faculty Award, University of Maryland (Spring, 2009)

VII. Patents:

"Improved Three-Axis Superconducting Gravity Gradiometer," U.S. Patent No.

4,841,772 (Issued on June 27, 1989).

"Improved Superconducting Six-Axis Accelerometer," U.S. Patent No. 5,224,380 (Issued

on July 6, 1993).

"Proof Mass Support and Sensing System," British Patent Application Nos. 9419649.0

and 9406347.6 (September 20, 1994 and March 20, 1994).

“Cross-Component Superconducting Gravity Gradiometer with Improved Linearity and

Sensitivity and Method for Gravity Gradient Sensing,” U.S. Patent No. 7,305,879

(Issued December 11, 2007).

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LIST OF PUBLICATIONS

April, 2016

Ho Jung Paik

A. Papers Published (or Accepted for Publication) in Refereed Journals

1. Physics and Astronomy research

1) "Distribution of Pulsar Duty Cycles," G. R. Henry and H. J. Paik, Nature 224, No.

5525, 1188-1189 (1969).

2) "Superconducting Tunable-Diaphragm Transducer for Sensitive Acceleration

Measurements," H. J. Paik, J. Appl. Phys. 47, 1168-1178 (1976).

3) "Calculation of the Absorption Cross Section of a Cylindrical Gravitational-Wave

Antenna," H. J. Paik and R. V. Wagoner, Phys. Rev. D 13, 2694-2699 (1976).

4) "The Observation of Mechanical Nyquist Noise in a Cryogenic Gravitational

Wave Antenna," S. P. Boughn, W. M. Fairbank, R. P. Giffard, J. N. Hollenhorst,

M. S. McAshan, H. J. Paik, and R. C, Taber, Phys. Rev. Lett. 38, 454-457 (1977).

5) "Response of a Disk Antenna to Scalar and Tensor Gravitational Waves," H. J.

Paik, Phys. Rev. D 15, 409-415 (1977).

6) "Tunable 'Free-Mass' Gravitational Wave Detector," R. V. Wagoner, C. M. Will,

and H. J. Paik, Phys. Rev. D 19, 2325-2329 (1979).

7) "New Null-Experiment to Test the Inverse Square Law of Gravitation," H. J. Paik,

Phys. Rev. D 19, 2320-2324 (1979).

8) "Design of a Resonant Gravitational Wave Detector with Quantum-Limited

Sensitivity," H. J. Paik, Nuovo Cimento 55B, 1-36 (1980).

9) "Superconducting Tensor Gravity Gradiometer for Satellite Geodesy and Inertial

Navigation, H. J. Paik, J. Astronaut. Sci. 29, 1-18 (1981).

10) "Toroidal dc SQUID with Point-Contact Junctions," H. J. Paik, R. H. Mathews,

and M. G. Castellano, IEEE Trans. Mag. MAG-17, 404-407 (1981).

11) "Recent Experimental Work on Point-Contact dc SQUID," M. G. Castellano and

H. J. Paik, Physica 108B, 1089-1090 (1981).

12) "Superconducting Tensor Gravity Gradiometer," H. J. Paik, Bull. Geod. 55, 370-

381 (1981).

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13) "Observations with a Low Temperature Resonant Mass Gravitational Radiation

Detector," S. P. Boughn, W. M. Fairbank, R. P. Giffard, J. N. Hollenhorst, E. R.

Mapoles, M. S. McAshan, P. F. Michelson, H. J. Paik, and R. C. Taber,

Astrophys. J. 261, L19-L22 (1982).

14) "Null Test of the Gravitational Inverse Square Law," H. A. Chan, M. V. Moody,

and H. J. Paik, Phys. Rev. Lett. 49, 1745-1748 (1982).

15) "Preliminary Tests of a Newly Developed Superconducting Gravity Gradiometer,"

M. V. Moody, H. A. Chan, and H. J. Paik, IEEE Trans. Mag. MAG-19, 461-464

(1983).

16) "Superconducting Techniques for Gravity Survey and Inertial Navigation," H. A.

Chan, H. J. Paik, M. V. Moody, and J. W. Parke, IEEE Trans. Mag. MAG-21,

411-414 (1985).

17) "Geodesy and Gravity Experiment in Earth Orbit Using a Superconducting

Gravity Gradiometer," H. J. Paik, Invited Paper to Special Issue, IEEE Trans.

Geoscience and Remote Sensing GE-23, 524-526 (1985).

18) "Superconducting Inductance Bridge Transducer for Resonant-Mass Gravitational

Radiation Detector," H. J. Paik, Phys. Rev. D 33, 309-318 (1986).

19) "Superconducting Gravity Gradiometer for Terrestrial and Space Applications,"

M. V. Moody, H. A. Chan, and H. J. Paik, J. Appl. Phys. 60, 4308-4315 (1986).

20) "Superconducting Gravity Gradiometer for Sensitive Gravity Measurements. I.

Theory," H. A. Chan and H. J. Paik, Phys. Rev. D 35, 3551-3571 (1987).

21) "Superconducting Gravity Gradiometer for Sensitive Gravity Measurements. II.

Experiment," H. A. Chan, M. V. Moody, and H. J. Paik Phys. Rev. D 35, 3572-

3597 (1987).

22) "Global Gravity Survey by an Orbiting Gravity Gradiometer," H. J. Paik, J.-S.

Leung, S. H. Morgan, and J. Parker, EOS Trans. 69, 1601, 1610-1611 (1988).

23) "Noise in a Point-Contact dc SQUID," K. R. Carroll and H. J. Paik, J. Low Temp.

Phys. 75, 187-207 (1989).

24) "Tests of General Relativity in Earth Orbit Using a Superconducting Gravity

Gradiometer," H. J. Paik, Adv. Space Res. 9, 41-50 (1989).

25) "Detection of the Gravitomagnetic Field Using an Orbiting Superconducting

Gravity Gradiometer. I. Theoretical Principles," B. Mashhoon, H. J. Paik, and C.

M. Will, Phys. Rev. D 39, 2825-2838 (1989).

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26) "White-Noise Measurements and Joule Heating in Superconducting Point

Contacts", K. R. Carroll and H. J. Paik, J. Appl. Phys. 65, 4333-4337 (1989).

27) "A Superconducting Six-Axis Accelerometer," E. R. Canavan, H. J. Paik, and J.

W. Parke, IEEE Trans. Mag. MAG-27, 3253-3256 (1991).

28) "Gauss's Law Test of Gravity at Short Range," M. V. Moody and H. J. Paik, Phys.

Rev. Lett. 70, 1195-1198 (1993).

29) “Null Test of the Inverse-Square Law of Gravity,” with M. V. Moody, Class.

Quantum Grav. 11, A145-A152 (1994).

30) “Detectability of Gravitational Wave Events by Spherical Resonant-Mass

Antennas,” G. R. Harry, T. R. Stevenson, and H. J. Paik, Phys. Rev. D 54, 2409-

2420 (1996).

31) “Predicted Performance of the Superconducting Gravity Gradiometer on the

Space Shuttle,” E. R. Canavan, M. V. Moody, H. J. Paik, P. J. Shirron, and M. J.

DiPirro, Cryogenics 36, 795-804 (1996).

32) “Mission Concepts for the Superconducting Gravity Gradiometer,” P. J. Shirron,

M. J. DiPirro, S. H. Castles, B. Bills, H. J. Paik, E. R. Canavan, and M. V.

Moody, Cryogenics 36, 805-813 (1996).

33) “Principles of STEP Accelerometer Design,” H. J. Paik, Class. Quantum Grav.

13, A79-A86 (1996).

34) “Superconducting Gravity Gradiometers on STEP and GEM,” H. J. Paik and J. M.

Lumley, Class. Quantum Grav. 13, A119-A127 (1996).

35) “Eötvös, an Inertial Instrument for Testing the Equivalence Principle,” J.-P.

Blaser, N. Lockerbie, H. J. Paik, C. Speake, and S. Vitale, Class. Quantum Grav.

13, A203-A206 (1996).

36) “Superconducting Angular Accelerometers for the Superconducting Gravity

Gradiometer Experiment,” with P. J. Shirron, M. J. DiPirro, M. V. Moody, E. R.

Canavan, and H. J. Paik, Adv. Cryo. Eng. 41, 1829-1835 (1996).

37) “Two-Stage Superconducting Quantum Interference Device (SQUID) Amplifier

in a High-Q Gravitational Wave Transducer,” G. M. Harry, I. Jin, H. J. Paik, T. R.

Stevenson, and F. C. Wellstood, Appl. Phys. Lett. 76, 1446-1448 (2000).

38) “Three-Axis Superconducting Gravity Gradiometer for Sensitive Gravity

Experiments,” M. V. Moody, H. J. Paik, and E. R. Canavan, Rev. Sci. Instrum. 73,

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3957-3974 (2002).

39) “Principle and Performance of a Superconducting Angular Accelerometer,” with

M. V. Moody and E. R. Canavan, Rev. Sci. Instrum. 74, 1310-1318 (2003).

40) “Principle of the STEP Accelerometer Design,” H. J. Paik, J.-P. Blaser and S.

Vitale, Adv. Space Res. 32, 1325-1333 (2003).

41) “Short-Range Inverse Square Law Experiment in Space,” D. M. Strayer, H. J.

Paik, and M. V. Moody, Low Temp. Phys. 29, 472-480 (2003).

42) “Short-Range Inverse Square Law Experiment in Space,” H. J. Paik, M. V.

Moody, and D. M. Strayer, Gen. Rel. Grav. 36, 523-537 (2004).

43) “Probing Extra Dimensions Using a Superconducting Accelerometer,” H. J. Paik,

V. Prieto, and M. V. Moody, J. Kor. Phys. Soc. 45, S104-S109 (2004).

44) “Cryogenics for Lunar Exploration,” T. Chui, B. Zhang, M. Barmatz, I. Hahn, K.

Penanen, C. Hays, D. Strayer, Y. Liu, F. Zhong, J. Young, T. Radey, J. Jones, N.

Galitzki, N. Li, L. Lo, S. Horikoshi, S. Hollen, and H. J. Paik, Cryogenics 46, 74-

81 (2006).

45) “First Cross-Correlation Analysis of Interferometric and Resonant-Bar

Gravitational-Wave Data for Stochastic Backgrounds,” G. M. Harry, M. V.

Moody, H. J. Paik, LIGO S4 authors, additional Allegro authors, Phy. Rev. D 76,

022001 (2007).

46) “Using the Moon as a Low-Noise Seismic Detector for Strange Quark Nuggets,”

W. B. Banerdt, T. Chui, C. E. Griggs, E. T. Herrin, Y. Nakamura, H. J. Paik, K.

Penanen, D. Rosenbaum, V. L. Teplitz, and J. Young, Nucl. Phys. B (Proc.

Suppl.) 166, 203-208 (2007).

47) “Seismometer for Strange Quark Nugget Search and for Lunar Science Studies,”

C. E. Griggs, H. J. Paik, T. Chui, K. Penanen, and J. Young, Nucl. Phys. B (Proc.

Suppl.) 166, 209-213 (2007).

48) “Space-Based Research in Fundamental Physics and Quantum Technologies,” S.

G. Turyshev, U. E. Israelsson, M. Shao, N. Yu, A. Kusenko, E. L. Wright, C. W.

F. Everitt, M. A. Kasevich, J. A. Lipa, J. C. Mester, R. D. Reasenberg, R. L.

Walsworth, N. Ashby, H. Gould, H.-J. Paik, Int. Jour. Mod. Phys. D 16, 1829-

1925 (2007).

49) “Inverse Square Law Experiment in Space,” H. J. Paik, V. A. Prieto, and M. V.

Moody, Int. Jour. Mod. Phys. D 16, 2181-2190 (2007).

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50) “Detection of the Gravitomagnetic Field Using an Orbiting Superconducting

Gravity Gradiometer: Principle and Experimental Considerations,” H. J. Paik,

Gen. Rel. Grav. 40, 907-919 (2008). DOI 10.1007/s10714-007-0582-4.

51) “Gravitational Wave Detection on the Moon and the Moons of Mars,” H. J. Paik

and K. Y. Venkateswara, Adv. Space Res. 43, 167-170 (2009).

52) “Effects of Satellite Positioning Errors and Earth’s Multipole Moments in the

Detection of the Gravitomagnetic Field with an Orbiting Gravity Gradiometer,”

X.-Q. Li, M.-X. Shao, H. J. Paik,Y.-C. Huang, T.-X. Song, and X. Bian, Gen, Rel.

Grav. 46, 1737 (2014). DOI 10.1007/s10714-014-1737-8.

53) “Newtonian Noise Cancellation in Full-Tensor Gravitational-Wave Detectors,” J.

Harms and H. J. Paik, Phys. Rev. D 92, 022001 (2015). doi:

10.1103/PhysRevD.92.022001

54) “Low-Frequency Terrestrial Tensor Gravitational-Wave Detector,” H. J. Paik, C.

E. Griggs, M. V. Moody, K. Venkateswara, H. M. Lee, A. B. Nielsen, E.

Majorana, J. Harms, Class. Quant. Grav. 33, 075003 (2016). doi: 10.1088/0264-

9381/33/7/075003

55) “First-Order Post-Newtonian Analysis of the Relativistic Tidal Effects for

Satellite Gradiometry and the Mashhoon-Theiss Anomaly,” P. Xu and H. J. Paik,

Phys. Rev. D 93, 044057 (2016).

56) “Gravitational Wave Detectors and a New Low-Frequency Detector SOGRO,”

with H. M. Lee, K. M. Cho and J. Kim, New Physics: Sae Mulli 66 (3), 272-282

(2016).

2. Instrumentation and techniques

1) "How to Make High Critical Current Joints in Nb-Ti Wire," D. G. Blair, H. J.

Paik, and R. C. Taber, Rev. Sci, Instrum. 46, 1130-1131 (1975).

2) "Superconducting Techniques for Gravity Survey and Inertial Navigation," H. A.

Chan, H. J. Paik, M. V. Moody, and J. W. Parke, IEEE Trans. Mag. MAG-21,

411-414 (1985).

3. Review papers

1) "The Search for Gravitational Radiation," S. P. Boughn and H. J. Paik, Mercury 5,

9-15 (1976).

http://dx.doi.org/10.1103/PhysRevD.92.022001

http://dx.doi.org/10.1088/0264-9381/33/7/075003

http://dx.doi.org/10.1088/0264-9381/33/7/075003

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2) "Precision Experiments to Search for the Fifth Force," J. E. Faller, E. Fischbach,

Y. Fujii, K. Kuroda, H. J. Paik, and C. C. Speake, IEEE Trans. Instr. Meas. 38,

180-188 (1989).

3) "Superconducting Accelerometry: Its Principles and Applications," H. J. Paik,

Class. Quantum Grav. 11, A133-144 (1994).

4) “The Next Detectors for Gravitational Wave Astronomy,” D. Blair, L. Ju, C.-N.

Zhao, L.-Q. Wen, H.-X. Miao, R.-G. Cai, J.-R. Gao, X.-C. Lin, D. Liu, L.-A. Wu,

Z.-H. Zhu, G. Hammond, H. J. Paik, V. Fafone, A. Rocchi, C. Blair, Y.-Q. Ma, J.-

Y. Qin and M. Page, Sci. China Phys., Mech. Astron. 58, 120405 (2015). doi:

10.1007/s11433-015-5747-7

B. Papers Presented at Scientific Meetings

1. Invited papers

1) "Low-Temperature Gravitational Wave Detector," at International School of

Physics "Enrico Fermi" (Varenna, Italy, July 1972). Also published in a book.

2) "Superconducting Gravity Gradiometers," at the 7th Moving Base Gravity

Gradiometer Review (Colorado Springs, Colorado, February 1979).

3) "Application of Superconducting Technology for Sensitivity Gravity

Measurements," at the 1979 Korean Scientists and Engineers Association

Washington Conference on Science and Technology (Washington, D.C., May

1979). Also published in the Proceedings.

4) "Optimization of gravity measuring instruments and Superconducting Gravity

Gradiometer," at the 8th Moving Base Gravity Gradiometer Review (Colorado

Springs, Colorado, February 1980).

5) "Superconducting Gravity Gradiometer System," at the 2nd Annual NASA

Geodynamics Program Review (Greenbelt, Maryland, February 1980).

6) "Gradiometer Development at the University of Maryland," GRAVSAT User's

Working Group Meeting (Greenbelt, Maryland, April 1980).

7) "Superconducting Tensor Gravity Gradiometer with SQUID Readout," at the

SQUID Applications to Geophysics Workshop (Los Alamos, New Mexico, June

1980). Also published in the Proceedings.

8) "Superconducting Tensor Gravity Gradiometer, Gravity Gradiometer Workshop

for POLO Mission (Washington, D.C., January 1981).

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9) "Superconducting Gravity Gradiometer," at the 9th Moving Base Gravity

Gradiometer Review (Colorado Springs, Colorado, March 1981).

10) "Superconducting Tensor Gravity Gradiometer," at the 2nd International

Symposium on Inertial Technology for Surveying and Geodesy (Banff, Canada,

June 1981). Also published in the Proceedings.

11) "A Spaceborne Superconducting Gravity Gradiometer for Mapping the Earth's

Gravity Field," at the 1981 International Geoscience and Remote Sensing

Symposium (Washington, DC, June 1981). Also published in IGARSS '81

Digest.

12) "Current Gravity Gradiometer Development," at the Workshop of the GRAVSAT

Users Data Analysis Group (Greenbelt, Maryland, June 1982).

13) "A Null Test of the Gravitational Inverse Square Law," at the 3rd Marcel

Grossmann Meeting on Recent Developments of General Relativity (Shanghai,

China, September 1982). Also published in the Proceedings.

14) "Superconducting Gravity Gradiometer," at the 11th Moving Base Gravity

Gradiometer Conference (Colorado Springs, Colorado, February 1983).

15) "Gravity Gradiometer Development at the University of Maryland," at the

Spaceborne Gravity Gradiometer Workshop (Greenbelt, Maryland, February

1983).

16) "Superconducting Gravity Gradiometer for Spaceborne Geodesy," at American

Geophysical Union Meeting (Baltimore, Maryland, June 1983).

17) "Three-Axis Superconducting Gravity Gradiometer," at the 12th Moving Base

Gravity Gradiometer Review (Colorado Springs, Colorado, February 1984).

18) "Three-Axis Superconducting Gravity Gradiometer for Spaceborne Gravity

Survey," with H. A. Chan, M. V. Moody and J. W. Parke, at American

Geophysical Union Meeting (Cincinnati, Ohio, May 1984).

19) "Flight Test Program and the Gravity Gradiometer Mission," at the GRM

(Geopotential Research Mission) Conference (College Park, Maryland, October

1984).

20) "Review of Superconducting Accelerometer and Gravity Gradiometer Research at

the University of Maryland," at the 13th Gravity Gradiometer Conference

(Colorado Springs, Colorado, February 1985).

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21) "Geodesy and Precision Gravity Experiments in Earth Orbit Using a

Superconducting Gravity Gradiometer," at American Geophysical Union Meeting

(Baltimore, Maryland, May 1985).

22) "Fully Integrated Superconducting Instrument for Gravity and Inertial Survey," at

the 3rd International Symposium on Inertial Technology for Surveying and

Geodesy (Banff, Canada, September 1985).

23) "Applications of Superconducting Gravity Gradiometer System Toward Inertial

Guidance and Fundamental Science," with H.A. Chan and M.V. Moody, at the

14th Gravity Gradiometer Conference (Colorado Springs, Colorado, February

1986).

24) "Superconducting Gravity Gradiometer for Geophysical Survey," at the Center for

Potential Fields Studies Topical Seminar: Gravity and Magnetic Gradiometry

(LaHabra, California, February 1986).

25) "Terrestrial Experiments to Test Theories of Gravitation," Symposium Chairman's

Review at the 11th International Conference on General Relativity and Gravitation

(Stockholm, Sweden, July 1986).

26) "Superconducting Six-Axis Accelerometer," at the NASA Workshop on the

Measurement and Characterization of the Acceleration Environment on Board the

Space Station (Guntersville, Alabama, August 1986).

27) "Superconducting Gravity Gradiometer Instrument: Principle and Status," at the

Superconducting Gravity Gradiometer Scientific Workshop (Colorado Springs,

Colorado, February 1987).


Gradiometer," at the 15th Gravity Gradiometer Conference (Colorado Springs,


29) "Superconducting Gravity Gradiometer for Space and Terrestrial Applications,"

with J.W. Parke and M.V. Moody, at the Conference of the International

Association of Geodesy (Vancouver, Canada, August 1987).

30) "Laboratory and Geophysical Experiments on Gravitation - an Overview,"

Chairman's Summary at the International Symposium on Experimental

Gravitational Physics, (Guangzhou, China, August 1987). Also published in the

Proceedings (World Scientific, Singapore, 1988).

31) "Global Gravity Survey by an Orbiting Gravity Gradiometer," with J.-S. Leung,

S.H. Morgan and J. Parker in the special session "Geodesy in the Year 2000," at

the American Geophysical Union Meeting (San Francisco, California, December

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1987). Also published in The National Academy of Sciences Report (1988).

32) "Distance Dependence of Gravity Force," at the 1988 Conference on Precision

Electromagnetic Measurements (Tsukuba Science City, Japan, June 1988).

33) "Earth-Orbiting Resonant-Mass Detectors of Gravitational Waves," at the

Workshop on Relativistic Gravitational Experiments in Space (Annapolis,

Maryland, June 1988). Also published in the Proceedings.

34) "Superconducting Gravity Gradiometer and a Test of the Inverse Square Law,"

with M. V. Moody, at the Workshop on Relativistic Gravitational Experiments in

Space (Annapolis, Maryland, June 1988). Also published in the Proceedings.

35) "Resonant-Mass Gravitational Wave Detectors: An Overview," at the

International Workshop on Gravitational Wave Signal Analysis and Processing

(Amalfi, Italy, July 1988). Also published in the Proceedings.

36) "Sensitivity and Bandwidth of Resonant-Mass Gravitational Wave Detectors," at

the International Workshop on Gravitational Wave Signal Analysis and

Processing (Amalfi, Italy, July 1988). Also published in the Proceedings.


Gradiometer," at the 27th Plenary Meeting of the Committee on Space Research

(Helsinki, Finland, July 1988).

38) "Superconducting Gravity Gradiometer Mission," at the International School of

Geodesy: Interdisciplinary Role of Space Geodesy (Erice, Italy, July 1988).

39) "Tests of General Relativity Using a Superconducting Gravity Gradiometer in

Earth Orbit," at the 5th Marcel Grossmann Meeting on General Relativity (Perth,

Australia, August 1988). Also published in the Proceedings.

40) "Detection of the Gravitomagnetic Field and Test of the Inverse Square Law in

Earth Orbit," at the 6th Oregon Conference on Low Temperature Physics (Eugene,

Oregon, September 1989).

41) "Gravity Mapping Using an Orbiting Superconducting Gravity Gradiometer," at

the 6th Oregon Conference on Low Temperature Physics (Eugene, Oregon,

September 1989).

42) "Superconducting Gravity Gradiometer Mission," with S. H. Morgan, at the 1st

William Fairbank Meeting on Relativistic Gravitational Experiments in Space,

(Rome, Italy, September 1990). Also published in the Proceedings (World

Scientific, Singapore, 1991).

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43) "Laboratory Demonstrations of Superconducting Gravity and Inertial Sensors for

Space and Airborne Gravity Measurements," with E. R. Canavan, Q. Kong, and

M. V. Moody, at the International Union of Geophysics and Geodesy Meeting

(Vienna, Austria, August 1991). Also published in a book.

44) "Superconducting Gravity Gradiometers," Invited talk to the Committee on

Geodesy, National Academy of Sciences (Washington, D.C., April 1992).

45) "Workshop C1 - Gravitational Wave Experiments," with W.O. Hamilton, at the

13th International Conference on General Relativity and Gravitation (Cordoba,

Argentina, July 1992). Also published in the Proceedings.

46) "Constant of Gravity and Inverse-Square Law Experiments on STEP," with J.-P.

Blaser, at the STEP Symposium (Pisa, Italy, April 1993). Also published in the

Proceedings.

47) "Superconducting Gravity Gradiometers on STEP," at the STEP Symposium

(Pisa, Italy, April 1993). Also published in the Proceedings.

48) "Superconducting Inductive Transducer for Ultralow Temperature Gravitational-

Wave Detectors," at Cryogenic Gravitational Wave Antennas: Progressive

Workshop (Padova, Italy, June 1993).

49) "Gravity Gradiometer Instrumentation: Progress Report," at the International

Symposium on Experimental Gravitation (Nathiagali, Pakistan, June 1993).

50) "Null Test of the Inverse-Square Law," at the International Symposium on

Experimental Gravitation (Nathiagali, Pakistan, June 1993). Also published in a

refereed journal.

51) "Superconducting Gravity Gradiometers: An Overview," at the Workshop on

High-Tc Superconducting Gravity Gradiometers (Enschede, Netherlands,

November 1993).

52) "Resonant-Mass Gravitational-Wave Detectors," at the International Workshop on

Gravitation and Fifth Force (Seoul, Korea, December 1993).

53) "Composition-Independent Search for a Fifth Force," at the International

Workshop on Gravitation and Fifth Force (Seoul, Korea, December 1993).

54) "Electromechanical Transducers and Bandwidth of Resonant-Mass Gravitational-

Wave Detectors," at the 1st Edoardo Amaldi Conference on Gravitational Wave

Experiments (Frascati, Italy, June 1994). Also published in the Proceedings.

55) "Passive Superconducting Transducers for Bar and Sphere Gravitational-Wave

14

Detectors," at the 7th Marcel Grossmann Meeting on General Relativity (Stanford,

California, July 1994).

56) "Superconducting Accelerometers, Gravitational-Wave Transducers, and Gravity

Gradiometers," at the American Physical Society Meeting (San Jose, California,

March 1995).


Gradiometers," invited lectures at the NATO ASI on SQUID Sensors:

Fundamentals, Fabrication and Applications (Maratea, Italy, June 1995). Also

published in a book.

58) "High Resolution Mapping Missions with Superconducting Gravity

Gradiometers," at the IUGG XXI General Assembly (Boulder, Colorado, July

1995).

59) "Superconducting Gravity Gradiometers on STEP," at the Symposium on

Fundamental Physics in Space (London, England, October 1995).

60) "Orbital Performance of a Superconducting Gravity Gradiometer: Resolving the

Static and Dynamic Components of the Earth's Field," with B.G. Bills, at the

American Geophysical Union Meeting (San Francisco, California, December

1995).

61) "Superconducting Gravity Gradiometer for Airborne Survey," with E. R. Canavan,

M. V. Moody, R. V. Duncan, and J. A. Demko, at the American Geophysical

Union Meeting (San Francisco, California, December 1995).

62) "Superconducting Gravity Gradiometers: I. Design and Operating Principles," at

the American Geophysical Union Spring Meeting (San Francisco, California,

December 1995).

63) "Superconducting Gravity Gradiometers: II. Performance and Applications,"

with M.V. Moody, at the American Geophysical Union Fall Meeting (San

Francisco, California, December 1995).

64) "Orbital Gravity Gradiometry: Flight Instrument Design and Error Budget," with

M.V. Moody, at the American Geophysical Union Fall Meeting (San Francisco,

California, December 1995).

65) "Spheres: Omni-Directional Multi-Mode Gravitational Wave Antennas for Next

Generation," at the Pacific Conference on Gravitation and Cosmology (Seoul,

Korea, February 1996). Also published in the Proceedings.


15

Generation," at the American Physical Society Meeting (Indianapolis, Indiana,

May 1996).

67) "General Design Principles for Superconducting Differential Accelerometers,"

with J.-P. Blaser and S. Vitale, at the COSPAR Symposium on Fundamental

Physics in Space (Birmingham, England, July 1996). Also published in the

Proceedings.

68) “Search for New Forces Using Superconducting Accelerometers,” at the 3rd

International Workshop on Gravitation and Astrophysics (Tokyo, Japan,

November 1997). Also published in the Proceedings.

69) “Superconducting Accelerometers for Gravitational Wave Detection and Precision

Gravity Experiments,” at the 4th High-Temperature Superconductivity Workshop

(Twente, Netherlands, May 1998). Also published in the Proceedings.

70) “Precision Gravity Experiments Using Superconducting Accelerometers,” at the

4th international Workshop on Gravitation and Astrophysics (Beijing, China,

October 1999). Also published in the Proceedings.

71) “Precision Measurements of the Gravitational Constant Using Low Temperature

Techniques,” at an invited session “Modern G Measurements” at the American

Physical Society Meeting (Long Beach, California, May 2000).

72) “Null Test of Newton’s Law of Gravity in the Millimeter Range,” at the 9th

Marcel Grossmann Meeting on General Relativity (Rome, Italy, July 2000).

73) “Precision Gravity Experiments to Test Predictions Beyond General Relativity

and the Standard Model of Particle Physics,” at the 50th Year Anniversary

Meeting of the Korean Physical Society (Seoul, Korea, October 2002).

74) “Probing Extra Dimensions Using a Superconducting Accelerometer,” with V.

Prieto and M. V. Moody, at the 6th International Conference on Gravitation and

Astrophysics (Seoul, Korea, October 2003). Also published in a refereed

journal.

75) “A Superconducting Gravity Gradiometer for Inertial Navigation,” M. V. Moody

and H. J. Paik, at the 2004 IEEE Position, Location, and Navigation Symposium

(Monterey, California, April, 2004). Also published in the Proceedings.

76) “ISLES: Probing Extra Dimensions and Searching for the Axion,” with M. V.

Moody, V. Prieto, and D. M. Strayer, at the 35th COSPAR Scientific Assembly

(Paris, France, July 2004).

16

77) “Probing Extra Dimensions Using a Superconducting Accelerometer,” at the Joint

Korean Physical Society/Association of Korean Physicists in America Meeting

(Seoul, Korea, April 2005).

78) “100 Years From the Miracle Year in Physics: Einstein’s Legacy” at the 2005 US-

Korea Conference on Science, Technology, and Entrepreneurship (Irvine,

California, August 2005).

79) “Overview of Gravitational Wave Experiment,” at the Workshop on Numerical

Relativity at Korea Institute for Science and Technology Information (Seoul,

Korea, September 2005).

80) “Einstein’s Unfinished symphony,” at the Korean Physical Society Meeting

(Jeonju, Korea, October 2005).

81) “Null Test of the Inverse-Square Law at 100-Micrometer Distance,” at the 7th

International Conference on Gravitation and Astrophysics (Jhongli, Taiwan,

November 2005). Also published in a book.

82) “Gravitational Waves,” Invited Lecture at the 2006 KIAS-SNU Physics Winter

Camp (Seoul, Korea, January 2006).

83) “Einstein’s Unfinished Symphony: Gravitational Wave Detection,” at the 2006

US-Korea Conference on Science, Technology, and Entrepreneurship (Teaneck,

New Jersey, August 2006).

84) “Einstein’s Unfinished Symphony: Deep Cosmic Voice of Gravitational Waves,”

at the Korean-American Scientists and Engineers Association Atlanta Chapter

Meeting (Atlanta, Georgia, November 2006).

85) “Search for Extra Dimensions and Fat Gravitons,” at the 2007 US-Korea

Conference on Science, Technology, and Entrepreneurship (Washington, DC,

August 2007).

86) “Cryogenic Test of the Gravitational Inverse-Square Law,” with K. Y.

Venkateswara, M. V. Moody, and V. Prieto, at the 9th International Conference on

Gravitation and Astrophysics (Wuhan, China, July 2009). Also published in the

Proceedings.

87) “Test of the Equivalence Principle on ISS,” with K. Y. Venkateswara and M. V.

Moody, at the Fundamental Physics ISS Workshop (Dana Point, California,

October 2010).

88) “Determination of Gravitational Constant G Using a Superconducting Differential

Accelerometer,” with I.-S. Kim, at the 2012 US-Korea Conference on Science,

17

Technology, and Entrepreneurship (Garden Grove, California, August 2012).

Also published in the Proceedings.

89) “Early History of Gravitational Wave Detectors,” at the International Conference

‘Gravitational Waves: New Frontier’ (Seoul, Korea, January 2013).

90) “Future Gravity Missions Using a Superconducting Gravity Gradiometer,” at Asia

Pacific Space Geodesy Symposium (Columbus, Ohio, October 2013).

91) “New Low-Frequency Gravitational Wave Detector with Superconducting

Instrumentation,” at the 2014 US-Korea Conference on Science, Technology, and

Entrepreneurship (San Francisco, California, August 2014).

92) “Future Gravity Missions Using a Superconducting Gravity Gradiometer,” with C.

Griggs, at the Asian Microgravity Symposium (Seoul, Korea, October 2014).

93) “Low-Frequency Tensor Gravitational-Wave Detector With Superconducting

Instrumentation,” at the Workshop “Next Detectors for Gravitational Wave

Astronomy (Kavli Institute for Theoretical Physics, Beijing, China, May 2015).

94) “Mitigation of Newtonian Noise Using a Tensor Gravitational-Wave Detector,”

with J. Harms, at the Workshop on Next Detectors for Gravitational Wave

Astronomy (Kavli Institute for Theoretical Physics, Beijing, China, May 2015).

95) “Terrestrial Detector for Low-Frequency Gravitational Waves Based on Full

Tensor Measurement,” with M. V. Moody, C. E. Griggs, H. M. Lee and E.

Majorana, at the 11th Edoardo Amaldi Conference on Gravitational Waves

(Gwangju, Korea, June 2015).

96) “Newtonian Noise Cancellation in Tensor Gravitational Wave Detector,” with J.

Harms, at the 11th Edoardo Amaldi Conference on Gravitational Waves

(Gwangju, Korea, June 2015).

97) “SOGRO, New Low-Frequency Gravitational Wave Detector with

Superconducting Instrumentation,” at the Pioneering Session of the Korean

Physical Society Meeting (Daejeon, Korea, April 2016).

98) “Superconducting Gravity Gradiometers for Precision Tests of Gravitation,

Planetary Gravity Mapping and Gravitational Wave Detection,” at the Optical

Sensors Workshop (Boston, Massachusetts, May 2016).

2. Colloquia, seminars, and special lectures

1) "Stanford Cryogenic Gravitational Wave Experiment," at the University of Tokyo

(Tokyo, Japan, August 1976).

18

2) "Application of Cryogenic Technology in Gravitational Wave Experiment," at

Seoul National University (Seoul, Korea, August 1976).

3) "Superconducting Tunable-Diaphragm Transducer for Experimental Gravitation,"

at Bell Telephone Laboratories (Murray Hill, New Jersey, April 1977).

4) "Gravitational Field Measurements Using Low Temperature Techniques," at the

University of Maryland (College Park, Maryland, March 1978).

5) "Gravitational Field Measurements Using Low Temperature Techniques," at

Louisiana State University (College Park, Maryland, April 1978).

6) "Superconducting Gravity Gradiometers for Geological Applications," at Bellaire

Research Center, Shell Development Company (Houston, Texas, April 1978).

7) "One, Two, and Three Dimensional Gravitational Wave Antennas and New Test

of Gravitational Inverse Square Law," at California Institute of Technology

(Pasadena, California, April 1978).

8) "A Null Test of the Inverse Square Law of Gravitation," at University of

California, Irvine (Irvine, California, April 1978).

9) "A Source Independent Null Test of the Inverse Square Law of Gravitation," at

University of Utah (Salt Lake City, Utah, July 1978).

10) "A Drag-Free Geodesy Satellite with Superconducting Gravity Gradiometer

Assembly as Proof Mass," at Applied Physics Laboratory, Johns Hopkins

University (Laurel, Maryland, March 1979).

11) "Cryogenic Technology for Measurements of Gravitational Fields," at the

National Bureau of Standards (Gaithersburg, Maryland, April 1979).

12) "The Super Cooled Gravity Gradiometer," at the NASA Headquarters

(Washington, D.C., October 1979).

13) "Review of the 2nd Marcel Grossmann Meeting," at the University of Maryland

(College Park, Maryland, October 1979).

14) "Introduction to the Physics of Superconducting Quantum Interference Devices,"

as series of three seminars at the University of Maryland (College Park, Maryland,

October 1979).

15) "Introduction to the Physics of Superconducting Quantum Interference Devices,"

at Johns Hopkins University (Baltimore, Maryland, October 1979).

19

16) "Applications of Superconducting Technology for Sensitive Gravitational

Measurements," at Marshall Space Flight Center (Huntsville, Alabama, November

1979).

17) "Quantum-Limited dc SQUID: Theory and Design," at the University of Tokyo


18) "Null Test of Gravitational Inverse Square Law," at the University of Tokyo


19) "Gravitational Radiation Experiment," at Seoul National University (Seoul,

Korea, August 1980).

20) "Present Status and Future Prospects of Gravitational Radiation Detection,"

Relativity Seminar, University of Maryland (College Park, Maryland, October

1980).

21) "Recent Experimental Work on Point-Contact dc SQUID," at National Bureau of

Standards (Boulder, Colorado, March 1981).

22) "Superconducting Gravity Gradiometer for Remote Sensing and Geoscience," at

National Bureau of Standards (Boulder, Colorado, March 1981).

23) "Development of Superconducting Gravity Gradiometer," at the 4th Annual

Conference on the NASA Geodynamics Program (Greenbelt, Maryland, January

1982).

24) "Precision Null Test of the Inverse Square Law of Gravitation," Colloquium at

National Bureau of Standards (Gaithersburg, Maryland, February 1982).

25) "Preliminary Test Results of a Superconducting Gravity Gradiometer," at the

Applied Physics Laboratory, Johns Hopkins University (Laurel, Maryland, June

1982).

26) "Status Report of Cryogenic Gravity Gradiometer," at Marshall Space Flight

Center (Huntsville, Alabama, June 1982).

27) "A Null Test of the Gravitational Inverse Square Law," Colloquium at Seoul

National University (Seoul, Korea, August 1982).

28) "A Null Test of the Gravitational Inverse Square Law," at the University of Tokyo

(Tokyo, Japan, September 1982).

29) "Encountering the Law of Gravity," Colloquium at the University of Maryland

20

(College Park, Maryland, September 1982).

30) "Progress Report on the University of Maryland Gravitational Radiation

Program," at the Workshop on SS433 and Gravitational Radiation (Rome, Italy,

July 1983).

31) "Null Test of the Gravitational Inverse Square Law Using a Spaceborne Gravity

Gradiometer," at NASA Headquarters (Washington, D.C., October 1983).

32) "Test of Newton's Law of Gravity Using a Superconducting Gravity

Gradiometer," Seminar at University of Michigan (Ann Arbor, Michigan,

November 1983).

33) "Experimental Search for Violations of the Gravitational Inverse Square Law," at

the University of Maryland (College Park, Maryland, February 1984).

34) "Applications and Prospects of the Superconducting Gravity Gradiometer," at

Army Engineers Topographic Laboratory (Fort Belvoir, Virginia, February 1985).

35) "Superconducting Gravity Gradiometer for Spaceborne Geodesy and Orbital

Gravity Experiments," at NASA Headquarters (Washington, D.C., May 1985).

36) "Superconducting Gravity Gradiometer: Instrument Concept and Platform

Requirements," at Marshall Space Flight Center (Huntsville, Alabama, October

1985).

37) "Some New Ideas on Gravitational Radiation Detection," Relativity Seminar at

the University of Maryland (College Park, Maryland, November 1985).

38) "Search for a Fifth Force Using a Superconducting Gravity Gradiometer,"

Department Colloquium at the University of California (Santa Barbara, California,

February 1986).

39) "Search for a Fifth Force Using a Superconducting Gravity Gradiometer,"

Department Colloquium at the University of Maryland (Baltimore County,

Maryland, March 1986).

40) "Search for a Fifth Force in Nature," UM Physics Seminar, at the University of

Maryland (College Park, Maryland, April 1986).

41) "Superconducting Gravity Gradiometer and Its Applications," Seminar at the

Aerospace Engineering Department, University of Maryland (College Park,

Maryland, May 1986).

42) "Experimental Search for a Fifth Force in Nature," Special Lecture for TV

21

Audience, Filmed by KBS TV from Seoul, Korea (June 1986).

43) "NASA Gravity Gradiometer Project," Briefing to the Committee on Geodesy, at

the National Academy of Sciences (Washington, D.C., September 1986).

44) "Search for a Fifth Force," at Harvard-Smithsonian Institute for Astrophysics

(Boston, Massachusetts, October 1986).

45) "Superconducting Gravity Gradiometer and Superconducting Six-Axis

Accelerometer, " at the Air Force Geophysics Laboratory, (Hanscom Air Force

Base, Massachusetts, October 1986).

46) "Search for a Fifth Force," Relativity Seminar at the University of Maryland

(College Park, Maryland, November 1986).

47) "Search for a Fifth Force," at the Washington University (St. Louis, Missouri,

November 1986).

48) "Search for Gravitational Waves: Current Status," at the University of Missouri

(Columbia, Missouri, November 1986).

49) "Encountering the Law of Gravity," Departmental Colloquium at the University of

Missouri (Columbia, Missouri, November 1986).

50) "New Test of General Relativity in Earth Orbit," at the University of Virginia

(Charlottesville, Virginia, March 1987).

51) "Encountering the Law of Gravity," Departmental Colloquium at the University of

Virginia (Charlottesville, Virginia, March 1987).

52) "Fundamental Gravity Experiments in Earth Orbit Using a Superconducting

Gravity Gradiometer," at NASA Headquarters (Washington, D.C., June 1987).

53) "Superconducting Gravity Gradiometers: Principles and Status," at the Institute

of Geodesy and Geophysics, Chinese Academy of Sciences (Wuhan, China, July

1987).

54) "Geodesy and Precision Gravity Experiments in Earth Orbit Using a

Superconducting Gravity Gradiometer," at the Institute of Geodesy and

Geophysics, Chinese Academy of Sciences (Wuhan, China, July 1987).

55) "New Tests of General Relativity in Earth Orbit," Relativity Seminar at the

University of Maryland (College Park, Maryland, November 1987).

56) "Detection of the Lense-Thirring Effect Using an Orbiting Superconducting

22

Gravity Gradiometer," at Stanford University (Stanford, California, December

1987).

57) "Superconducting Inertial Instruments for Gravity Survey and Navigation," at a

Special Meeting on the Applications of High-Temperature Superconductivity,

DARPA (Arlington, Virginia, February 1988).

58) "Precision Test of the Gravitational Inverse Square Law in Search for New

Forces," Departmental Colloquium at Purdue University (West Lafayette, Indiana,

March 1988).

59) "Gravity Experiments at the University of Maryland," at the University of Tokyo

(Tokyo, Japan, June 1988).

60) "Search for the Fifth Froce by Using Sensitive Superconducting Gravity

Gradiometer," Relativity Seminar at the University of Maryland (College Park,

Maryland, November 1988).

61) "Principles of Gravity Gradient Detection," Experimental Relativity Seminar at

the University of Maryland (College Park, Maryland, September 1989).

62) "General Description of Errors," Experimental Relativity Seminar at the

University of Maryland (College Park, Maryland, November 1989).

63) "Investigation of Instrument Noise and Errors," Experimental Relativity Seminar,

University of Maryland (College Park, Maryland, December 1989).

64) "Null Test of the Gravitational Inverse Square Law - Errors," Experimental

Relativity Seminar, University of Maryland (College Park, Maryland, February

1990).

65) "Null Test of the Gravitational Inverse Square Law - Data and Results,"

Experimental Relativity Seminar, University of Maryland (College Park,

Maryland, March 1990).

66) "Improved Null Experiment with Modified Gravity Source," Experimental

Relativity Seminar, University of Maryland (College Park, Maryland, September

1990).

67) "Superconducting Transducer for 50mK Gravitational Wave Detector,"


Maryland, October 1990).

68) "SGG Flight Test of the European Retrievable Carrier (EURECA)," Experimental

Relativity Seminar, University of Maryland (College Park, Maryland, February

23

1991).

69) "Lunar Gravity Mission with a Superconducting Gravity Gradiometer,"


Maryland, April 1991).

70) "Superconducting Gravity Gradiometer for Airborne Gravity Survey," at Bellaire

Research Center, Shell Development Company (Houston, Texas, May 1991).

71) "Superconducting Gravity Gradiometer for Airborne Gravity Survey," at Dallas

Potential Fields Group Meeting (Dallas, Texas, October 1991).

72) "Superconducting Gravity Gradiometer for Airborne Gravity Survey," at Houston

Potential Fields Group Meeting (Houston, Texas, November 1991).

73) "Superconducting Gravity Gradiometer for Space and Airborne Gravity Survey,"

at Delft University of Technology (Delft, Netherlands, May 1992).

74) "New Null Test of the Gravitational Inverse Square Law Using a Superconducting

Gravity Gradiometer," at Stanford University (Stanford, California, July 1992).

75) "Gauss's Law Test of Gravity at Short Range," at the University of Washington

(Seattle, Washington, August 1992).

76) "Testing the Validity of the Law of Gravitation," Departmental Colloquium at

West Virginia University (Morgantown, West Virginia, October 1992).

77) "Superconducting Gravity Gradiometers: Application in Geodesy and

Gravitational Physics," at Eidgenössiche Technische Hochschule (Zürich,

Switzerland, November 1992).

78) "New Limits on Vacuum Curvature on One Meter Scale," Departmental

Colloquium at the University of Maryland (College Park, Maryland, March 1993).

79) "Superconducting Accelerometry: Its Principles and Applications," at Pohang

Institute of Technology (Pohang, Korea, July 1993).

80) "Gauss's Law Test of Gravity," at Pohang Institute of Technology (Pohang, Korea,

July 1993).

81) "Resonant-Mass Gravitational-Wave Detectors," at Hanyang University (Seoul,

Korea, July 1993).

82) "Gauss's Law Test of Gravity," at Seoul National University (Seoul, Korea, July

1993).

24

83) "Resonant-Mass Gravitational-Wave Detectors," at Seoul National University

(Seoul, Korea, July 1993).

84) "Superconducting Gravity Gradiometers: An Overview," at the University of

Gotenburg (Gotenburg, Sweden, November 1993).

85) "Resonant-Mass Gravitational Wave Detectors," at Kamelingh Onnes Laboratory

(Leiden, Netherlands, March 1994).

86) "Superconducting Gravity Gradiometers at the University of Maryland," at Sandia

National Laboratories (Albuquerque, New Mexico, September 1994).

87) "Gauss's Law Test of Gravity," at the University of New Mexico (Albuquerque,

New Mexico, September 1994).

88) "Spherical Gravitational-Wave Antenna," at the University of New Mexico

(Albuquerque, New Mexico, September 1994).

89) "Superconducting Gravity Gradiometers: Designs and Applications," Colloquium

at Applied Physics Laboratory, Johns Hopkins University (Columbia, Maryland,

October 1994).

90) "Omni-Directional Search for Gravitational Waves Using a Sphere: A

Complement to Laser Interferometers," at California Institute of Technology

(Pasadena, California, April 1996).

91) “Superconducting Gravity Gradiometer Project at Maryland,” at the Summer

Workshop of American Association of Physics Teachers (College Park, Maryland,

August 1996).

92) “Search for Axions Using a High-Q Torsional Detector,” Superconductivity

Seminar, University of Maryland (College Park, Maryland, April 1997).

93) “Development of SGG Survey System,” at Lamont-Doherty Earth Observatory

(Palisades, New York, May 1997).

94) “Search for Axions Using a High-Q Torsional Detector,” at the University of

Colorado (Boulder, Colorado, June 1997).

95) “Development of SGG Survey System,” at the Naval Research Laboratory

(Washington, D.C., August 1997).

96) “Search for Axions Using a High-Q Torsional Detector,” at the University of

Virginia (Charlottesville, Virginia, September 1997).

25

97) “Search for Axion-Like Particles Using a Superconducting Differential

Accelerometer,” Joint Gravitation/High Energy Physics Seminar at the University

of Maryland (College Park, Maryland, November 1998).

98) “Does Newton’s Law Break Down at mm Ranges?” Joint Gravitation/Elementary

Particle Physics Seminar at the University of Maryland (College Park, Maryland,

November 1999).

99) “Precision Gravity Experiments on ISS and Vibration Isolation Requirements,” at

Jet Propulsion Laboratory (Pasadena, California, January 2001).

100) “Spheres - Omni-Directional Gravitational-Wave Antennas for Next Generation,”

Invited Lecture at INPE (Sao Jose dos Campos, Brazil, March, 2001).

101) “Electromechanical Transducers and Bandwidth of Resonant-Mass Gravitational-

Wave Detectors,” Invited Lecture at INPE (Sao Jose dos Campos, Brazil, March,

2001).

102) “Superconducting Inductive Transducers for Bar and Sphere Gravitational-Wave

Detectors,” Invited Lecture at INPE (Sao Jose dos Campos, Brazil, March, 2001).

103) “Search for a String-Theory Predicted Violation of Gravitational Inverse-Square

Law,” Gravitation Seminar at the University of Maryland (College Park,


104) “Search for a String-Theory Predicted Violation of Gravitational Inverse-Square

Law,” at the Ajoo University (Soowon, Korea, June 2001).

105) “Spin-Mass Interaction Low-temperature Experiment (SMILE) and Inverse-

Square Law Experiment in Space (ISLES),” at Ball Aerospace (Boulder,


106) “Short-Range Inverse-Square Law Experiment in Space (ISLES),” at the

University of Washington (Seattle, Washington, May 2002).


Gravity Experiments,” at Jet Propulsion Laboratory (Pasadena, California, July

2002).

108) “Probing Extra Dimensions Down to a Few Micrometers Using a

Superconducting Accelerometer,” Colloquium at Kyungbook National University

(Daegu, Korea, May 2003).

109) “Precision Gravity Experiments Using Superconducting Accelerometers,” at Jet

26

Propulsion Laboratory (Pasadena, California, July 2003).


Superconducting Differential Accelerometer,” Colloquium at Seoul National

University (Seoul, Korea, October 2003).

111) “Precision Measurement of G with a Laboratory Planetary System,” at Korea

Research Institute of Standards and Science (Daejon, Korea, October 2003).


Superconducting Differential Accelerometer,” at Korea Basic Research Institute

(Daejon, Korea, October 2003).


Superconducting Differential Accelerometer,” Joint Gravity/Particle Physics

Seminar at the University of Maryland (College Park, Maryland, October 2003).

114) “Probing Extra Dimensions Using a Superconducting Gravity Gradiometer,”

CaJAGWR Seminar at California Institute of Technology (Pasadena, California,

April 2004).

115) “Gravitational Wave Experiment on the Moon,” CaJAGWR Seminar at California

Institute of Technology (Pasadena, California, April 2004).

116) “Gravitational Wave Experiment on the Moon,” at Jet Propulsion Laboratory

(Pasadena, California, May 2004).

117) “Gravitational Wave Experiment on the Moon,” Gravitation Seminar at the

University of Maryland (College Park, Maryland, May 2004).

118) “Does Gravity Experience Extra Dimensions?” Colloquium at California State

University (Long Beach, California, September 2004).

119) “Probing Extra Dimensions Using a Superconducting Accelerometer,” HEPL

Seminar at Stanford University (Stanford, California, November 2004).

120) “Does Gravity Experience Extra Dimensions?” Colloquium at National

Astronomical Observatory (Tokyo, Japan, April 2005).

121) “Einstein’s Relativity and the Expanding Universe,” Public lecture to the Korean

community in the Greater Washington DC Area in celebration of the World Year

of Physics (College Park, Maryland, October, 2005).

122) “Einstein’s Unfinished Symphony,” Colloquium at the School of Physics, Seoul

National University (Seoul, Korea, October 2005).

27

123) “Einstein’s Relativity and the Expanding Universe,” Seminar at the Department of

Electrical Engineering, Seoul National University (Seoul, Korea, November

2005).

124) “Search for Extra Dimensions Using a Superconducting Accelerometer,”

Colloquium at Korea Institute of Advanced Studies (Seoul, Korea, November

2005).

125) “Search for Extra Dimensions Using a Superconducting Accelerometer,” Seminar

at Korea Advanced Institute of Science and Technology (Daejeon, Korea,

November 2005).

126) “Lunar Seismic Search for Gravitational Waves and Strange Quark Matter,”

Seminar at Korea Aerospace Research Institute (Daejeon, Korea, November

2005).

127) “MIDEX Mission Concept Review: Test of Relativity in Orbit (TRIO),”

Presentation to a JPL panel (Pasadena, California, September 2006).“Einstein’s

Relativity and the Expanding Universe,” Public lecture to the Korean community

in the San Francisco Bay Area (Stanford, California, October 2006).

129) “Einstein’s Relativity and the Expanding Universe,” Public lecture to the Korean

community in the Greater Atlanta Area (Atlanta, Georgia, November 2006).

130) “Tests of Relativity In Orbit (TRIO) - A Candidate Mission for MIDEX,” Lecture

at Ball Aerospace and Technology Corporation (Boulder, Colorado, March 2007).

131) “A Sensitive Broadband Seismometer for Lunar/Planetary Exploration,” Lecture

at the Seismometer PIDDP Kickoff Meeting (Pasadena, California, May 2008).

132) “Probing Extra Dimensions and the Axion with a Superconducting

Accelerometer,” HEPL seminar at Stanford University (Stanford, California,

November 2008).

133) “A Short-Range Inverse-Square Law Test: Progress Report,” Gravitation Group

Seminar at the University of Maryland (College Park, Maryland, November

2008).

134) “Superconducting Gravity Gradiometer and Gauss’s Law Test of the Inverse-

Square Law at 1 m,” Invited lecture at the Summer School on General Relativity

(Wuhan, China, June 2009).

136) “Short-Range Inverse-Square Law Test Using a Superconducting Accelerometer,”

Invited lecture at the Summer School on General Relativity (Wuhan, China, June

28

2009).

137) “Fundamental Tests of Gravity in Space: GP-B, STEP, and SMART,” Invited

lecture at the Summer School on General Relativity (Wuhan, China, June 2009).


Seminar at Beijing Normal University (Beijing, China, July 2009).


at Chinese Academy of Sciences, Institute of Mathematics (Beijing, China,

January 2010).

140) “Tests of the Equivalence Principle in Space: STEP and SMART,” at Chinese

Academy of Sciences, Institute of Mathematics (Beijing, China, January 2010).

141) “Possible Future Satellite Gradiometry Mission After GOCE and Cyrocooling

Technology,” at Chinese Academy of Sciences, Institute of Mechanics (Beijing,

China, January 2010).

142) “Possible Future Satellite Gradiometry Mission After GOCE and Cyrocooling

Technology,” at DFH Satellite Co., Ltd. (Beijing, China, March 2010).

143) “Superconducting Accelerometers, Gravity Gradiometers, and a Space Test of the

Equivalence Principle,” at Tsinghua University (Beijing, China, March 2010).


at Huazhong University of Science and Technology (Wuhan, China, April 2010).

145) “Possible Future Satellite Gradiometry Mission After GOCE,” at Purple Mountain

Observatory (Nanjing, China, May 2010).

146) “Space Tests of General Relativity: Frame Dragging and Equivalence Principle,”

at Purple Mountain Observatory (Nanjing, China, May 2010).

147) “Sensitive Gravity Measurement Using Superconducting Technology,” at

Shanghai Astronomical Observatory (Shanghai, China, May 2010).

148) “Possible Future Satellite Gradiometry Mission After GOCE,” at Shanghai

Astronomical Observatory (Shanghai, China, May 2010).

149) “Space Tests of General Relativity: Frame Dragging and Equivalence Principle,”

at Tsinghua University (Beijing, China, June 2010).

150) “Superconducting Gravity Gradiometer and Control Requirements for Future

Satellite Gravity Mission,” at Goddard Space Flight Center (Greenbelt, Maryland,

29

August 2010).

151) “Superconducting Accelerometers for Precision Gravity Experiments and Space

Geodesy,” at Goddard Space Flight Center (Greenbelt, Maryland, March 2011).

152) “Superconducting Gravity Gradiometers: Principle, Design and Applications,” at

Huazhong University of Science and Technology (Wuhan, China, April 2011).

153) “More Details on Superconducting Gravity Gradiometers,” at Huazhong

University of Science and Technology (Wuhan, China, April 2011).

154) “Sensitive Superconducting Gravity Gradiometer for Future Gravity Missions,” at

Chinese Academy of Sciences, Institute of Mathematics (Beijing, China, May

2011).

155) “Precision Tests of Laws of Gravitation and High-Resolution Gravity Mapping

Using Superconducting Accelerometers,” at Chinese Academy of Sciences,

Institute of Mathematics (Beijing, China, May 2011).

156) “Precision Tests of Laws of Gravitation and High-Resolution Gravity Mapping

Using Superconducting Accelerometers,” at Renmin University (Beijing, China,

May 2011).

157) “Superconducting Gravity Gradiometers,” Series of six lectures at Korea Research

Institute of Standards and Science (Daejon, Korea, September 2011).

158) “Detection of Gravitomagnetic Field and Frame Dragging,” at the Chinese

Academy of Sciences, Institute of Mathematics (Beijing, China, April 2012).

159) “Precision Tests of Laws of Gravity Using Superconducting Accelerometers,”

Series of four lectures at Lanzhou University (Lanzhou, China, May 2012).

160) “Future Gravity Gradiometer Missions Using Superconducting Technology,” at

Lanzhou Physics Institute (Lanzhou, China, May 2012).

161) “Tests of Newton’s Law and the Equivalence Principle,” Series of three lectures at

Huazhong University of Science and Technology (Wuhan, China, October 2012).

162) “Low-Frequency Gravitational Wave Detectors,” at Huazhong University of

Science and Technology (Wuhan, China, October 2013).

163) “Cryogenic Test of Newton’s Law at 1 m, 100 m and 10 m distances,” at

Huazhong University of Science and Technology (Wuhan, China, November

2013).

30


Instrumentation,” at the Chinese Academy of Sciences Institute of Mathematics

(Beijing, China, November 2013).

165) “Tests of the Equivalence Principle and Frame Dragging Using Superconducting

Accelerometers,” at the Chinese Academy of Sciences Institute of Physics

(Beijing, China, November 2013).

166) “Superconducting Gravity Gradiometer and Precision Tests of Newton’s Law,” at

the National Institute of Metrology (Beijing, China, November 2013).

167) “Precision Experiments in Fundamental Science and Requirements on Cryogenic

Technology,” at the Chinese Academy of Sciences Technical Institute of Physics

and Chemistry (Beijing, China, November 2013).


Instrumentation,” Gravitation Seminar at the University of Maryland (College

Park, Maryland, February 2014).

169) “Gravitational Signal Detection – Noise and Optimization,” at the Chinese

Academy of Sciences Institute of Mathematics (Beijing, China, April 2014).

170) “Calculation of Matrix Elements for Passive and Active Transducers,” at the

Chinese Academy of Sciences Institute of Mathematics (Beijing, China, May

2014).

171) “Sensitivity of SOGRO,” at the Korea Gravitational Wave Group Meeting (Seoul,

Korea, May 2014).


Instrumentation,” at the University of Washington (Seattle, Washington, August

2014) and at LIGO Laboratory (Hanford, Washington, August 2014).


Instrumentation,” at Caltech (Pasadena, California, December 2014).

174) “Future Gravity Missions Using a Superconducting Gravity Gradiometer,” at Jet

Propulsion Laboratory (Pasadena, California, December 2014).


Instrumentation,” at the University of Rome (Rome, Italy, January 2015).


Instrumentation,” at Virgo Laboratory (Cascina, Italy, January 2015).

31

177) “Improved Determination of G Using a Laboratory Planetary System,” at the

University of Trento (Trento, Italy, January 2015).


Instrumentation,” at the University of Trento (Trento, Italy, January 2015).

179) “Improved Determination of G Using a Laboratory Planetary System,” at

Huazhong University of Science and Technology (Wuhan, China, April 2015).

180) “Low-Frequency Tensor Gravitational-Wave Detector with Superconducting

Instrumentation,” at Huazhong University of Science and Technology (Wuhan,

China, April 2015).

181) “SOGRO, New Low-Frequency Gravitational-Wave Detector with

Superconducting Instrumentation,” Invited talk at the Korean Physical Society

Meeting (Daejeon, Korea, April 2016).

182) “Detection of Gravitational Waves by LIGO and New Low-Frequency Detector

SOGRO,” at the Korea Institute of Standards and Science (Daejeon, Korea, April

2016).

183) “Superconducting Tensor Gravitational-Wave Detector and Mitigation of

Newtonian Noise,” LIGO group seminar, MIT (Cambridge, Massachusetts, May

2016).

184) “Superconducting Gravity Gradiometers for Planetary Gravity Mapping,

Gravitational-Wave Detection, and Earthquake Early Warning,” at Lincoln

Laboratory (Lexington, Massachusetts, May 2016).

185) “Terrestrial Tensor Gravitational-Wave Detector Based on Superconducting

Instrumentation,” at the Research Station Program on Gravitational-Wave

Astronomy with Present and Future Detectors (Yangpyung, Korea, August 2016).

186) “Superconducting Tensor Gravitational Wave Detector and Newtonian Noise

Mitigation,” HEPL seminar, Stanford University (Stanford, California, October

2016).

187) “Terrestrial Tensor Gravitational-Wave Detector Based on Superconducting

Instrumentation,” at the Institute of Applied Mathematics, CAS (Beijing, China,

October 2016).

188) “Faster Earthquake Early Warning Using Superconducting Gravity

Gradiometers,” at the Institute of Geophysics and Geodesy, CAS (Wuhan, China,

October 2016).

32

189) “Faster Earthquake Early Warning Using Superconducting Gravity

Gradiometers,” at the Technical Institute of Physics and Chemistry, CAS (Beijing,

China, October 2016).

190) “Terrestrial Tensor GW Detector Based on Superconducting Instrumentation,” at

Workshop on Common Technologies for Searching for Axion and Gravitational

Waves (Daejeon, Korea, November 2016).

191) “Superconducting Gravitational Wave Detector for Observation in Infrasound

Frequency Band,” Colloquium at Korea Astronomy and Space Science Institute

(Daejeon, Korea, May 2017).

192) “Superconducting Gravitational Wave Detector for Observation in Infrasound

Frequency Band,” Astronomy colloquium at Seoul National University (Seoul,

Korea, May 2017).

3. Contributed papers

1) "Superconducting Tunable-Diaphragm Transducer for Sensitive Gravitational

Radiation Detector," Bull. Am. Phys. Soc. 20, 100 (1975).

2) "Cryogenic Gravitational Radiation Detector," with S. P. Boughn, W. M.

Fairbank, M. S. McAshan, R. C. Taber, and R. P. Giffard, Bull. Am. Phys. Soc.

20, 100 (1975).

3) "Response of a Disk Antenna to Scalar and Tensor Gravitational Waves," Bull.

Am. Phys. Soc. 21, 1308 (1976).

4) "Superconducting 'Tensor' Gravity Gradiometer for Geophysical and Navigational

Applications," with H. A. Chan and J.-P. Richard, 1980 Applied

Superconductivity Conference (Santa Fe, New Mexico, September, 1980).

5) "Status of dc SQUID Development at Maryland," at the 10th Texas Symposium

on Relativistic Astrophysics (Baltimore, Maryland, December 1981).

6) "Development of Superconducting Gravity Gradiometer," with H. A. Chan and M.

V. Moody, at the 4th Annual Conference on the NASA Geodynamics Program

(Greenbelt, Maryland, January 1982).

7) "Development of Point-Contact dc SQUID to Reach the Quantum Limit of a 1

KHz Gravitational Wave Detector," at the Third Marcel Grossmann Meeting on

Recent Developments of General Relativity (Shanghai, China, September 1982).

8) "Superconducting Gravity Gradiometer," at the Annual NASA Geodynamics

33

Program Review (Washington, D.C., January 1983).

9) "Progress Report on the University of Maryland Gravitational Radiation

Program," at the Workshop on SS433 and Gravitational Radiation (Rome, Italy,

July 1983).

10) "The Gravity Wave Antenna Program at Maryland," at the 10th International

Conference on General Relativity and Gravitation (Padova, Italy, July 1983).

11) "Null Test of the Inverse Square Law in the Earth's Orbit," at the 10th

International Conference on General Relativity and Gravitation (Padova, Italy,

July 1983).

12) "Superconducting Gravity Gradiometer with SQUID Readout," at the Workshop

on SQUIDs and Motion Transducers (Boulder, Colorado, March 1984).

13) "Test of Gravitational Inverse Square Law Using an Orbiting Gravity

Gradiometer," with J. Murphy, EOS Trans. 65, 196 (1984).

14) "Superconducting Accelerometers and Gravity Gradiometers," at the 10th

International Cryogenic Engineering Conference (Helsinki, Finland, July 1984).

15) "Precision Gravity Experiments in Earth Orbit Using a Superconducting Gravity

Gradiometer," at the Pacific Coast Gravity Meeting (Pasadena, California, March

1985).

16) "Development of Superconducting Gravity Gradiometer for Space Applications,"

with H. A. Chan and M. V. Moody, at the 14th Gravity Gradiometer Conference


17) "Platform Requirements and Error Composition for a Superconducting Gravity

Gradiometer," at the 14th Gravity Gradiometer Conference (Colorado Springs,


18) "Development of Superconducting Gravity Gradiometer for Space Applications,"

with H. A. Chan, Q. Kong, M. V. Moody, and J. W. Parke, at the American

Geophysical Union Meeting (Baltimore, Maryland, May 1986).

19) "Platform Requirements and Error Compensation for a Superconducting Gravity

Gradiometer," at the American Geophysical Union Meeting (Baltimore,


20) "Search for Medium-Range Force with Null Detector and Symmetric Source,"

with H. A. Chan and M. V. Moody, at the 11th International Conference on

General Relativity and Gravitation (Stockholm, Sweden, July 1986).

34

21) "Wideband Detection of Gravitational Radiation Using Non-Resonant Mechanical

Amplification," at the 11th International Conference on General Relativity and

Gravitation (Stockholm, Sweden, July 1986).

22) "Superconducting Six-Axis Accelerometer for Inertial Instrumentation," with J.

W. Parke, at the Applied Superconductivity Conference (Baltimore, Maryland,

September 1986).

23) "Versatile Gravity Gradiometer with New Superconducting Technology," with H.

A. Chan, Q. Kong, and M. V. Moody, at the Applied Superconductivity

Conference (Baltimore, Maryland, October 1986).

24) "Development of a Three-Axis Superconducting Gravity Gradiometer and a Six-

Axis Superconducting Accelerometer," with M. V. Moody, H. A. Chan, Q. Kong,

and J. W. Parke, at the 15th Gravity Gradiometer Conference (Colorado Springs,


25) "Progress of a Null Test of the Inverse Square Law," at the International

Symposium on Experimental Gravitational Physics (Guangzhou, China, August

1987).

26) "Three-Axis Superconducting Gravity Gradiometer - Progress Report," with M.

V. Moody, Q. Kong, and J. W. Parke, at the 16th Gravity Gradiometry Conference


27) "Global Gravity Survey and Precision Gravity Experiments by an Earth Orbiting

Gravity Gradiometer," with J. S. Leung, S. H. Morgan, and J. Parker, at the 16th

Gravity Gradiometry Conference (Colorado Springs, Colorado, February 1988).

28) "Superconducting Six-Axis Accelerometer for Platform Stabilization in Sensitive

Gravity Experiments," with E. R. Canavan and J. W. Parke, at the 12th

International Conference on General Relativity and Gravitation (Boulder,

Colorado, July 1989).

29) "Electrical Quality Factor in a Gravitational Wave Transducer," with K. R.

Carroll, at the 12th International Conference on General Relativity and

Gravitation (Boulder, Colorado, July 1989).

30) "Development of the Model III Superconducting Gravity Gradiometer," with M.

V. Moody and Q. Kong, at the 17th Gravity Gradiometry Conference (Hanscom

Air Force Base, Massachusetts, October 1989).

31) "Development of a Superconducting Six-Axis Accelerometer," with E. R.

Canavan and J. W. Parke, at the 17th Gravity Gradiometry Conference (Hanscom

35

Air Force Base, Massachusetts, October 1989).

32) "Superconducting Gravity Gradiometer Mission - An Overview," at the 17th

Gravity Gradiometry Conference (Hanscom Air Force Base, Massachusetts,

October 1989).

33) "A Superconducting Gravity Gradiometer," at the 1st William Fairbank Meeting

on Relativistic Gravitational Experiments in Space (Rome, Italy, September

1990).

34) "SREP - a Short-Range Equivalence Principle Experiment," at the STEP

Symposium (Pisa, Italy, April 1993).

35) "Satellite Tests of the Inverse Square Law: the ISLAND and LORE proposals," at

the International Symposium on Future Fundamental Physics Missions in Space

and Enabling Technologies (El Escorial, Spain, April 1994).

36) "Status and Expected Performance of Dynamic Alignment of Accelerometers," at

the 2nd STEP Workshop (Mürren, Switzerland, February 1995).

37) "Status and Requirements for the G/ISL Experiment," at the 2nd STEP Workshop

(Mürren, Switzerland, February 1995).

38) "High Resolution Gravity Measurement: I. Establishing a Baseline for Global

Change," with B. G. Bills, at the American Geophysical Union Spring Meeting


39) "High Resolution Gravity Measurement: II. Instrument Concept," with E. R.

Canavan and M. V. Moody, at the American Geophysical Union Spring Meeting


40) "Detectability of a Neutron Star Coalescence in a Spherical Resonant-Mass

Detector: A Numerical Simulation," with G. M. Harry and T. R. Stevenson, at the

Conference on Astrophysical Sources of Gravitational Waves (Penn State

University, Pennsylvania, July 1995).

41) "A Novel Superconducting Gravity Gradiometer for GEM," with J. M. Lumley, at

the Symposium on Fundamental Physics in Space (London, England, October

1995).

42) “GEOID Mission: Instrument and Error Budget,” with E. R. Canavan and M. V.

Moody, at the American Geophysical Union Meeting (Baltimore, Maryland, May

1996).

43) “Precision Measurements of the Gravitational Constant Using Low Temperature

36

Techniques,” at the 9th Marcel Grossmann Meeting on General Relativity (Rome,

Italy, July 2000).

44) “Short-Range Inverse-Square Law Experiment in Space,” with M. V. Moody and

D. M. Strayer, at the 2002 World Space Congress (Houston, Texas, October

2002).

45) “Spin-Mass Interaction Low-Temperature Experiment on ISS,” with J. Lee, M. V.

Moody and D. M. Strayer, at the 2002 World Space Congress (Houston, Texas,

October 2002).

46) “Gravitational Wave Experiment on the Moon and the Moons of Mars,” at the

38th ESLAB Symposium and 5th International LISA Symposium (Noordwijk,

Netherlands, July 2004).

47) “Superconducting Gravity Gradiometer for Prospecting Petroleum and Minerals,”

with M. V. Moody, at the World Conference on Physics and Sustainable

Development (Durban, South Africa, October 2005).

48) “Search for Hidden Dimensions and Particles Using Superconducting

Accelerometers,” H. J. Paik, V. Prieto, M. V. Moody, and K. Venkateswara, at the

18th International Conference on General Relativity and Gravitation (Sydney,

Australia, July 2007).

49) “A Seismometer for Icy Moons and Planets,” T. Chui, J. Young, K. Penanen, H. J.

Paik, and C. R. Neal, at Outer Planet Flagship Mission Instrument Workshop

(Monrovia, California, June 2008).

50) “A Sensitive Broadband Seismometer for Lunar/Planetary Exploration,” H. J.

Paik, T. Chui, and C. R. Neal, at the NLSI Lunar Science Conference (Moffett

Field, California, July 2008).

51) “Cryogenic Test of the Gravitational Inverse-Square Law,” with Krishna

Venkateswara, Ho Jung Paik, M. Vol Moody and Violeta Prieto, at the 19th

International Conference on General Relativity and Gravitation (Mexico City,

Mexico, July 2010).

52) “Orbital Gravity Gradiometry Beyond GOCE: Geophysical Applications,” H. J.

Paik, M. V. Moody, K. Y. Venkateswara, S.-C. Han, P. Ditmar, R. Klees, P. J.

Shirron, M. J. DiPirro, E. R. Canavan, C. Jekeli, and C.K. Shum, at the American

Geophysical Union Meeting (San Francisco, California, 2010).

53) “Orbital Gravity Gradiometry Beyond GOCE: Mission Concept,” H. J. Paik, M.

V. Moody, K. Y. Venkateswara, S.-C. Han, P. Ditmar, R. Klees, P. J. Shirron, M.

J. DiPirro, E. R. Canavan, C. Jekeli, and C.K. Shum, at the American Geophysical

37

Union Meeting (San Francisco, California, 2010).

54) “Test of the Equivalence Principle in Space,” at the Asian Microgravity Pre-

Symposium (Guilin, China, October 2012).

55) “Low-Frequency Gravitational-Wave Detector with Superconducting

Instrumentation,” at KAGRA Meeting (Seoul, Korea, November 2013).

C. Books or Contributions to Edited Books

1) "The Use of Cryogenic Techniques to Achieve High Sensitivity in Gravitational

Wave Detectors," S. P. Boughn, W. M. Fairbank, M. S.McAshan, H. J. Paik, R.

C. Taber, T. P. Bernat, D. G. Blair, and W. O. Hamilton, in Gravitational

Radiation and Gravitational Collapse, edited by C. DeWitt-Morette (1973), pp.

40-51.

2) "Low-Temperature Gravitational Wave Detector," H. J. Paik, in Experimental

Gravitation, edited by B. Bertotti (Academic Press, New York, 1974), pp. 515-

524.

3) "Search for Gravitational Radiation Using Low Temperature Techniques," W. M.

Fairbank, S. P. Boughn, H. J. Paik, M. S. McAshan, J. E. Opfer, R. C. Taber, W.

O. Hamilton, B. Pipes and T. Bernat, in Experimental Gravitation, edited by B.

Bertotti (Academic Press, New York, 1974), pp. 294-309.

4) "Superconducting Gravity Gradiometers," H. J. Paik, E. R. Mapoles, and K. Y.

Wang, in Future Trends in Superconductive Electronics, AIP Conference

Proceedings, Volume 44, edited by B. S. Deaver, Jr. C. M. Falco, J. H. Harris, and

S. A. Wolf (AIP, New York, 1978), pp. 166-170.

5) "Experimental Test of a Spatial Variation of the Newtonian Gravitational

Constant at Large Distances," H. A. Chan and H. J. Paik, in Precision

Measurement and Fundamental Constants II, edited by B. N. Taylor and W. D.

Phillips, Natl. Bur. Stand. (U.S.) Spec. Publ. 617 (1984), pp. 601-606.

6) "Nero Zero: Toward a Quantum-Limited Resonant-Mass Gravitational Radiation

Detector," P. F. Michelson, M. Bassan, S. Boughn, R. P. Giffard, J. N.

Hollenhorst, E. R. Mapoles, M. S. McAshan, B. E. Moskowitz, H. J. Paik, and R.

C. Taber, in Near Zero: New Frontiers of Physics, edited by J. D. Fairbank, B. S.

Deaver, Jr., C. W. F. Everitt, and P. F. Michelson (Freeman, New York, 1988),

pp. 713-730.

7) "Precision Gravity Experiments Using Superconducting Accelerometers," H. J.

Paik, in Near Zero: New Frontiers of Physics, edited by J. D. Fairbank, B. S.

38

Deaver, Jr., C. W. F. Everitt, and P. F. Michelson (Freeman, New York, 1988),

pp. 755-765.

8) "Composition-Independent Null Test of the Gravitational Inverse Square Law," H.

J. Paik, Q. Kong, M. V. Moody, and J. W. Parke, in 5th Force - Neutrino Physics,

edited by O. Fackler and J. Tran Thanh Van (Editions Frontirres, Gif-sur-Yvette

Cedex, France, 1988), pp. 531-547.

9) "Potential Field Measurement Systems," J. Achache, C. W. F. Everitt, H. J. Paik,

C. Reigber, and D. Sonnabend, in The Interdisciplinary Role of Space Geodesy,

edited by I. I. Mueller and S. Zerbini (Springer-Verlag, Berlin, 1989), p. 166.

10) "Laboratory Demonstrations of Superconducting Gravity and Inertial Sensors for

Space and Airborne Gravity Measurements," H. J. Paik, E. R. Canavan, Q. Kong,

and M. V. Moody, in From Mars to Greenland: Charting Gravity with Space and

Airborne Instruments - Fields, Tides, Methods, Results, edited by O. L. Colombo

(Springer-Verlag, New York, 1992), pp. 191-201.

11) "Constant of Gravity and Composition-Dependent Inverse Square Law Test on

STEP," H. J. Paik, in Perspectives in Neutrinos, Atomic Physics and Gravitation,

edited by J. Tran Thanh Van, T. Damour, E. Hinds, and J. Wilkinson (Editions

Frontieres, Gif-sur-Yvette Cedex, 1993), pp. 433-443.

12) “Superconducting Accelerometry: Its Principles and Applications,” H. J. Paik, in

Experimental Gravitation, edited by M. Karim and A. Qadir (IOP Publishing,

Bristol, 1994), pp. A133-144.

13) "Null Test of the Inverse-Square Law of Gravity," H. J. Paik and M. V. Moody, in

Experimental Gravitation, edited by M. Karim and A. Qadir (IOP Publishing,

Bristol, 1994), pp. A145-152.


Gradiometers," H. J. Paik, in SQUID Sensors: Fundamentals, Fabrication and

Applications, edited by H. Weinstock (Kluwer, Dordrecht, 1996), p. 569.

15) “Chapter 15: Gravity and Motion Sensors,” H. J. Paik, in SQUID Handbook Vol.

2, edited by J. Clarke and A. Braginski (Wiley, New York, 2006), pp. 545-579.

16) “Null Test of the Inverse-Square Law at 100-Micrometer Distance,” H. J. Paik, V.

A. Prieto, and M. V. Moody, in GRAVITATION AND ASTROPHYSICS: On the

Occasion of the 90th Year of General Relativity, edited by J. M Nester, C.-M.

Chen, and J.-P. Hsu (World Scientific, Singapore, 2007), pp. 9-19.

D. Papers Submitted to Refereed Journals, but Not Yet Published

39

1) “Sensitive Superconducting Gravity Gradiometer Constructed with Levitated Test

Masses,” C. E. Griggs, M. V. Moody, R. S. Norton, H. J. Paik, and K.

Venkateswara, Phys. Rev. D, submitted.

E. Technical Reports

1) "Field Quenching of the Electron Magnetic Moment," with R.A. Smith and G.R.

Henry, ITP-353, Stanford University (1969).

2) "Analysis and Development of a Very Sensitive Low Temperature Gravitational

Radiation Detector," Ph.D. thesis, HEPL Report No. 743, Stanford University

(1974).

3) "How to Detect Gravitational Radiation: From Supernova to Superconductor,"

Essay on Gravitation submitted to Gravity Research Foundation, New Boston,

New Hampshire (1974).

4) "Derivation of Relations Between Mechanical and Electrical Amplitudes for

Modulated Resonant Transducers," with R.P. Giffard, Stanford University (1977).

5) "Source-independent Experiment to Test the Metric Theories of Gravitation in the

Newtonian Limit," Essay on Gravitation submitted to Gravity Research

Foundation, New Boston, New Hampshire (1979).

6) "Development of a Sensitive Superconducting Gravity Gradiometer for

Geological and Navigational Applications," NASA Contractor Report 4011

(1986).

7) "Geophysical and Geodetic Requirements for Global Gravity Field Measurements:

1987-2000," with J. Apel, L. Cordell, C.J. Finley, T. Fischetti, E.A. Flinn, B.

Hager, A. Hsui, A. Lazarewicz, M. McNutt, D. Sandwell, D.E. Smith, D.

Sonnabend and L. Walter, Report of a Gravity Workshop, NASA (1987).

8) "Superconducting Gravity Gradiometer Mission, Volume II. Study Team

Technical Report," with S.H. Morgan, NASA Technical Memorandum 4091

(1988).

9) "Superconducting Gravity Gradiometer Mission, Volume I. Study Team

Executive Summary," with S. H. Morgan, NASA Technical Memorandum 4091

(1989).

10) "Gravity Measurement Techniques," with C. W. F. Everitt, C. Reigber, and D.

Sonnabend, in Measurement Techniques and Technology Panel Report, NASA

40

Solid Earth Science Planning Conference (1989).

11) "Development of a Superconducting Six-Axis Accelerometer," with J.W. Parke

and E.R. Canavan, Final Report to the Air Force, Report No. GL-TR-89-0181

(1989).

12) "Feasibility Study of the Superconducting Gravity Gradiometer (SGG) Flight Test

on the European Retrievable Carrier (EURECA), Section 3," Final Report

91SDS4201, General Electric Company (1991).

13) "STEP Phase A Report, Chapter 2: The Principles of the STEP Experiments,

and Chapter 5: The Constant of Gravity and the Inverse Square Law

Experiments," Report to the European Space Agency (March 1993).

14) "Superconducting Gravity Gradiometer Experiment," with M.V. Moody, E.R.

Canavan, B.G. Bills, P.J. Shirron, M.J. DiPirro, and S.H. Castles, In-STEP (In-

Space Technology Experiment) Phase A report to NASA (February 1995).

15) "Mission Concepts for a Superconducting Gravity Gradiometer Earth Survey to

Establish a Baseline for Global Change," with M.V. Moody, E.R. Canavan, B.G.

Bills, P.J. Shirron, M.J. DiPirro, and S.H. Castles, Pre-Phase A report to NASA

(April 1995).

16) “Gravity for Earth, Ocean and Ice Dynamics,” M. McNutt et al., Phase-A report

for ESSP Mission in response to AO-96-MTPE-01 (December 1996).

17) "STEP Phase A Report, Section 3.5: The Geodesy Experiment," Report to the

European Space Agency (March 1996).

18) "Priorities in Space Science Enabled by Nuclear Power and Propulsion," Report of

the Committee on Priorities for Space Science Enabled by Nuclear Power and

Propulsion, National Research Council (2006).

19) “A Sensitive Broadband Seismometer for Lunar/Planetary Exploration,” Final

Report to NASA (August, 2013).

F. Papers Published in Conference Proceedings

1) "Low Temperature Gravity Wave Detector," J. E. Opfer, S. P. Boughn, W. M.

Fairbank, M. S. McAshan, H. J. Paik, and R. C. Taber, in the Proceedings of the

13th International Conference on Low Temperature Physics (Boulder, Colorado,

1971), pp. 559-562.

2) "Preliminary Measurements with a 4 K Gravitational Wave Antenna," S.P.

41

Boughn, M. S. McAshan, H. J. Paik, R. C. Taber, W. M. Fairbank, and R. P.

Giffard, in the Proceedings of the 14th International Conference on Low

Temperature Physics (Helsinki, Finland, 1975), pp. 246-249.

3) "Multi-mode Detection of Gravitational Waves by a Sphere," R. V. Wagoner and

H. J. Paik, in the Proceedings of the Accademia Nazionale dei Lincei

International Symposium on Experimental Gravitation (Pavia, Italy, 1976), pp.

257-265.

4) "Cryogenic Approach to an Optimal Gravitational Wave Detector," S. P. Boughn,

W. M. Fairbank, R. P. Giffard, J. N. Hollenhorst, M. S. McAshan, H. J. Paik, and

R. C. Taber, in the Proceedings of the Accademia Nazionale dei Lincei

International Symposium on Experimental Gravitation (Pavia, Italy, 1976), pp.

271-285.

5) "Gravitational Wave Detectors of Increased Sensitivity," R. P. Giffard, S. P.

Boughn, W. M. Fairbank, M. S. McAshan, H. J. Paik, and R. C. Taber, in the

Proceedings of International School of Physics "Enrico Fermi" (Varenna, Italy,

1976), pp. 166-184.

6) "Progress Report on the Stanford Refrigerated Gravitational Radiation Antenna,"

S. P. Boughn, W. M. Fairbank, R. P. Giffard, M. S. McAshan, H. J. Paik, and R.

C. Taber, in the Proceedings of the 8th International Conference on General

Relativity and Gravitation (Waterloo, Ontario, 1977).

7) "Application of Superconducting Technology for Sensitivity Gravity

Measurements," H. J. Paik, in the Proceedings of the 1979 Korean Scientists and

Engineers Association Washington Conference on Science and Technology

(Washington, D.C., 1979).

8) "Superconducting Tensor Gravity Gradiometer with SQUID Readout," in the

Proceedings of the SQUID Applications to Geophysics Workshop (Los Alamos,

New Mexico, 1980).

9) "A True Laplacian Detector for Null Test of the Inverse Square Law of

Gravitation," H. A. Chan and H. J. Paik, in the Proceedings of the 9th

International Conference on General Relativity and Gravitation (Jena, East

Germany, 1980), p. 352.

9) "'Tensor' Gravitational Radiation Detection for Pulses and Continuous Signals,"

H. J. Paik, in the Proceedings of the 9th International Conference on General

Relativity and Gravitation (Jena, East Germany, 1980), pp. 388-389.

10) "Toroidal Point-Contact DC SQUID For Gravitational Radiation Antenna," H. J.

Paik, in the Proceedings of the 9th International Conference on General

42

Relativity and Gravitation (Jena, East Germany, 1980), pp. 395-396.

11) "Superconducting Tensor Gravity Gradiometer with SQUID Readout," H. J. Paik,

in the Proceedings of the SQUID Applications to Geophysics Workshop (Los

Alamos, New Mexico, 1980), pp. 145-152.

12) "Superconducting Tensor Gravity Gradiometer," H. J. Paik, in the Proceedings of

the 2nd International Symposium on Inertial Technology for Surveying and

Geodesy, edited by K.-P. Schwarz (Canada Institute of Surveying, Ottawa, 1981),

pp. 555-568.

13) "A Spaceborne Superconducting Gravity Gradiometer for Mapping the Earth's

Gravity Field," H. J. Paik, in IGARSS '81 Digest (1981).

14) "Experimental Examination of the Inverse Square Law of Gravitation, H. J. Paik

and H. A. Chan, in the Proceedings of the 2nd Marcel Grossmann Meeting on

Recent Developments of General Relativity (North-Holland, Amsterdam, 1982),

edited by R. Ruffini, pp. 1013-1018.

15) "Unified Theory of Gravitational Radiation Detectors for Pulses and

Monochromatic Signals," H. J. Paik, in the Proceedings of the 2nd Marcel

Grossmann Meeting on Recent Developments of General Relativity (North-

Holland, Amsterdam, 1982), edited by R. Ruffini, pp. 1193-1209.

16) "A Null Test of the Gravitational Inverse Square Law," H. J. Paik, H. A. Chan,

and M. V. Moody, in the Proceedings of the 3rd Marcel Grossmann Meeting on

Recent Developments of General Relativity, edited by Hu Ning (North-Holland,

Amsterdam, 1983), pp. 839-853.

17) "The Gravitational Radiation Project at Maryland," W. S. Davis, F. Desrosier, W.

Folkner, D. Gretz, K. Krack, M. V. Moody, H. J. Paik, J.-P. Richard, J. Weber, G.

Wilmot, J. Clarke and J. Martinis, in the Proceedings of the 3rd Marcel

Grossmann Meeting on Recent Developments of General Relativity, edited by Hu

Ning (North-Holland, Amsterdam, 1983), pp. 1433-1436.

18) "Sensitivity Enhancement of Inertial Instruments by Means of a Superconducting

Negative Spring," J. W. Parke, H. J. Paik, H. A. Chan and M. V. Moody, in the

Proceedings of the 10th International Cryogenic Engineering Conference, edited

by H. Collan, P. Berglund, and M. Krusius (Butterworth, Surrey, 1984), p.361.

19) "Development of Three-Axis Superconducting Gravity Gradiometer," H. J. Paik,

H. A. Chan, M. V. Moody and J. W. Parke, in the Proceedings of the 17th

International Conference on Low Temperature Physics (Kahlsruhe, West

Germany, 1984), edited by V. Echern, A. Schmid, W. Weber and H. Wuhl

(Elsevier), p. DR3.

43

20) "A Superconducting Penetration Depth Thermometer,” M. V. Moody, H. A.

Chan, H. J. Paik, and C. Stephens, in the Proceedings of the 17th International

Conference on Low Temperature Physics (Kahlsruhe, West Germany, 1984),

edited by B. Echern, A. Schmid, W. Weber and H. Wuhl (Elsevier), pp. 407-408.

21) "Point-Contact dc SQUID," K. R. Carroll and H. J. Paik, in the Proceedings of the

SQUID Magnetometry Workshop (Berkeley Springs, West Virginia, 1984), pp.

79-81.

22) "Detection of Gravitomagnetic Field Using an Orbiting Superconducting Gravity

Gradiometer," H. J. Paik, B. Mashhoon, and C. M. Will, in the Proceedings of the

International Symposium on Experimental Gravitational Physics (World

Scientific, Singapore, 1988), pp. 229-244.

23) "Laboratory and Geophysical Experiments on Gravitation - an Overview," H. J.

Paik, in the Proceedings of the International Symposium on Experimental

Gravitational Physics (World Scientific, Singapore, 1988), pp. 425-426.

24) "Global Gravity Survey by an Orbiting Gravity Gradiometer," H. J. Paik, J.-S.

Leung, S. H. Morgan and J. Parker in the special session "Geodesy in the Year

2000," in The National Academy of Sciences Report (1988).

25) "Earth-Orbiting Resonant-Mass Detectors of Gravitational Waves," H. J. Paik, in

the Proceedings of the Workshop on Relativistic Gravitational Experiments in

Space (Annapolis, Maryland, 1988).

26) "Superconducting Gravity Gradiometer and a Test of the Inverse Square Law," H.

J. Paik and M. V. Moody, in the Proceedings of the Workshop on Relativistic

Gravitational Experiments in Space (Annapolis, Maryland, 1988).

27) "Resonant-Mass Gravitational Wave Detectors: An Overview," H. J. Paik, in the

Proceedings of the International Workshop on Gravitational Wave Signal

Analysis and Processing (Amalfi, Italy, 1988).

28) "Sensitivity and Bandwidth of Resonant-Mass Gravitational Wave Detectors," H.

J. Paik, in the Proceedings of the International Workshop on Gravitational Wave

Signal Analysis and Processing (Amalfi, Italy, 1988).

29) "Tests of General Relativity Using a Superconducting Gravity Gradiometer in

Earth Orbit," H. J. Paik, in the Proceedings of the 5th Marcel Grossmann Meeting

on General Relativity, edited by D. G. Blair and M. J. Buckingham (World

Scientific, Singapore, 1989), pp. 1647-1650.

30) "Superconducting Gravity Gradiometer Mission," H. J. Paik and S. H. Morgan, in

44

the Proceedings of the 1st William Fairbank Meeting on Relativistic Gravitational

Experiments in Space (World Scientific, Singapore, 1991).

31) "Ultralow Temperature Resonant-Mass Gravitational-Wave Detectors: Current

Status and Future Prospects," P. F. Michelson, T. Aldcroft, J. Chiang, D. DeBra,

J. Henderson, L. Mann, D. McKenzie, S. McLoughlin, H. J. Paik, R. Penny, J. C.

Price, T. Stevenson, B. Vaughan, C. Zhou, in Gravitational

Astronomy - Instrument Design and Astrophysical Prospects, edited by D. E.

McClellend and H. A. Bachor (World Scientific, Singapore, 1991).

32) "Gravitational Wave Experiments," Workshop Summary, W. O. Hamilton and H.

J. Paik, in the Proceedings of the 13th International Conference on General

Relativity and Gravitation (Cordoba, Argentina, 1992), pp. 407-411.

33) "Constant of Gravity and Inverse-Square Law Experiments on STEP," H. J. Paik

and J.-P. Blaser, in the Proceedings of the STEP Symposium (Pisa, Italy, 1993),

pp. 148-159.

34) "Superconducting Gravity Gradiometers on STEP," H. J. Paik, in the Proceedings

of the STEP Symposium (Pisa, Italy, 1993), pp. 321-334.

35) “Sensitivity and Bandwidth of Resonant-Mass Gravitational Wave Detectors,” H.

J. Paik, in the Proceedings of International Workshop on Gravitation and Fifth

Force, edited by S.-W. Kim (Seoul, Korea, 1993), pp. 1-20.

36) "Gauss's Law Test of Gravity at Short Range," M. V. Moody and H. J. Paik, in the

Proceedings of the 13th Moriond Workshop (Villars sur Ollon, Switzerland,

February 1993), p. 403.

37) "A Superconducting Six-Axis Accelerometer for Platform Control and Space

Applications," H. J. Paik and E. R. Canavan, in the Proceedings of the 16th

Biennial Guidance Test Symposium (Holloman Air Force Base, New Mexico,

1993).

38) "A Shuttle Test of Superconducting Gravity Gradiometer," M. V. Moody, E. R.

Canavan, and H. J. Paik, in the Proceedings of the NASA/JPL 1994 Microgravity

Low Temperature Physics Workshop (Washington, DC, 1994), pp. 283-291.

39) "EÖTVÖS, a New Concept for Low Disturbance Measurements in Space", J.-P.

Blaser and H. J. Paik, in the Proceedings of the 14th Moriond Workshop on

Particle Astrophysics, Atomic Physics and Gravitation (Villars sur Ollon,

Switzerland, 1994), pp. 427-431.

40) “Design Considerations for a Superconducting Gravity Gadiometer for Airborne

Survey,” H. J. Paik, E. R. Canavan, and M. V. Moody, in the Proceedings of the

45

International Symposium on Kinematic Systems in Geodesy, Geomatics and

Navigation (Banff, Canada, 1994), pp. 539-545.

41) "Electromechanical Transducers and Bandwidth of Resonant-Mass Gravitational-

Wave Detectors," H. J. Paik, in the Proceedings of the 1st Edoardo Amaldi

Conference on Gravitational Wave Experiments, edited by E. Coccia, G. Pizzella,

and F. Ronga (World Scientific, Singapore, 1995), pp. 201-219.

41) "Wideband Resonant-Lever Transducer for Massive Spherical Gravitational Wave

Detectors," H. J. Paik, G. M. Harry, and T. R. Stevenson, in the Proceedings of

the 7th Marcel Grossmann Meeting on General Relativity, edited by R. T. Jantzen

and G. MacKeiser (World Scientific, Singapore, 1996), pp. 1483-1485.

42) “Fundamental Gravity Experiments on Space Station,” H. J. Paik, in the

Proceedings of the NASA/JPL 1996 Low Temperature Microgravity Physics

Workshop (Pasadena, California, 1996), pp. 170-172.

43) "General Design Principles for Superconducting Differential Accelerometers," H.

J. Paik, J.-P. Blaser, and S. Vitale, in the Proceedings of the COSPAR Symposium

on Fundamental Physics in Space (Birmingham, England, 1996).

44) “Detectability of Neutron-Star Coalescence, Bar-Mode Instability and Core-

Collapse by Spherical Antennas, G. M. Harry, T. R. Stevenson, and H. J. Paik, in

the Proceedings of the 1st International Workshop on Omnidirectional

Gravitational Radiation Observatory, edited by W. F. Velloso, Jr., O. D. Aguiar,

and N. S. Magalhaes (World Scientific, Singapore, 1997), pp. 142-147

45) “Search for New Forces Using Superconducting Accelerometers,” H. J. Paik, in

the Proceedings of the 3rd International Workshop on Gravitation and

Astrophysics (Tokyo, Japan, 1997), pp. 10-24.

46) “Airborne/Shipborne SGG Survey System,” H. J. Paik, E. R. Canavan, and M. V.

Moody, in the Proceedings of the International Symposium on Kinematic Systems

in Geodesy, Geomatics and Navigation (Banff, Canada, 1997), pp.565-570.


Generation," H. J. Paik, in the Proceedings of the Pacific Conference on

Gravitation and Cosmology, edited by Y. M. Cho, C. H. Lee, and S.-W. Kim

(World Scientific, Singapore, 1998), pp. 294-308.

48) “Search for Spin-Mass Coupling Using a Superconducting Differential

Accelerometer,” H. J. Paik, in the Proceedings of the 1998 NASA/JPL Workshop

on Fundamental Physics in Microgravity (Oxnard, California, 1998), pp. 78-82.

46


Gravity Experiments,” H. J. Paik, in the Proceedings of the 4th High-Temperature

Superconductivity Workshop (Twente, Netherlands, 1998).

50) “Search for Spin-Mass Coupling Using a Superconducting Differential Angular

Accelerometer,” H. J. Paik, in the Proceedings of the 1999 NASA/JPL

International Conference on Fundamental Physics in Space (Oxnard, California,

1998), pp. 341-345.

51) “Search for Axions Using a Superconducting Differential Angular

Accelerometer,” H. J. Paik, M. V. Moody, and, E. R. Canavan, in Proceedings of

the 8th Marcel Grossman Meeting on General Relativity, edited by T. Piran


52) “Precision Gravity Experiments Using Superconducting Accelerometers,” H. J.

Paik and M. V. Moody, in the Proceedings of the 4th international Workshop on

Gravitation and Astrophysics, edited by L. Liu, J. Luo, X.-Z. Li, and J.-P. Hsu


53) “Construction of the Spin Source for Spin-Mass Experiment,” H. J. Paik, J. Lee,

and M. V. Moody, in the Proceedings of the 2000 NASA/JPL Investigators’

Workshop on Fundamental Physics in Microgravity (Solvang, California, 2000).

54) “Fundamental Gravity Experiments on ISS,” H. J. Paik, M. V. Moody, and J. Lee,

in the Proceedings of 2nd Pan Pacific Basin Workshop on Microgravity Sciences

(Pasadena, California, 2001).

55) “A Superconducting Gravity Gradiometer Tool for Exploration,” J. M. Lumley, J.

P. White, G. Barnes, D. Huang, and H. J. Paik, in the Proceedings of the Society

of Exploration Geophysics Meeting (San Antonio, Texas, 2001).

56) “Short-Range Inverse-Square Law Experiment in Space,” H. J. Paik, M.V. Moody

and D.M. Strayer, in the Proceedings of 2002 NASA/JPL Workshop on

Fundamental Physics in Space (Dana Point, California, 2002).

57) “Spin-Mass Interaction Low-Temperature Experiment on ISS,” H. J. Paik, M.V.

Moody and D.M. Strayer, in the Proceedings of 2002 NASA/JPL Workshop on

Fundamental Physics in Space (Dana Point, California, 2002).

58) “ISLES: Probing extra dimensions using a superconducting accelerometer,” H. J.

Paik, M. V. Moody, and V. A. Prieto, in the Proceedings of 2003 NASA/JPL

Workshop on Fundamental Physics in Space (Oxnard, California, 2003).

47

59) “A Superconducting Gravity Gradiometer for Inertial Navigation,” M. V. Moody

and H. J. Paik, in the Proceedings of the 2004 IEEE Position, Location, and

Navigation Symposium (Monterey, California, 2004), p. 775.

60) “Exploring the Moon and Mars Using an Orbiting Superconducting Gravity

Gradiometer,” H. J. Paik and D. M. Strayer, in the Proceedings of the 2004

NASA/JPL Workshop on Physics for Planetary Exploration (Solvang, California,

2004).

61) “Gravitational Wave Experiment on the Moon and the Moons of Mars,” H. J. Paik

and K. Y. Venkateswara in the Proceedings of the 2004 NASA/JPL Workshop on

Physics for Planetary Exploration (Solvang, California, 2004).

62) “A Superconducting Gravity Gradiometer Tool for Exploration,” J. M. Lumley, J.

P. White, G. Barnes, D Huang, and H. J. Paik, in the Proceedings of the Airborne

Gravity 2004 Workshop (Sydney, Australia, 2004), Geoscience Australia Record

2004/18, edited by R. Lane, pp. 21-40.

63) “Interdisciplinary Research on Small Lunar Seismic Signals,” W. B. Banerdt, T.

Chui, N. Galitzki, E. T. Herrin, H. J. Paik, K. Penanen, D. Rosenbaum, V. L.

Teplitz, and J. Young, in the Proceedings of Space Resource Roundtable VII:

LEAG conference on Lunar Exploration (League City, Texas, 2005), to be

published by LPI.

64) “SMART to Test the Equivalence Principle and the Inverse-Square Law,” H. J.

Paik, L. Chen, and M. V. Moody, in the Proceedings of International Workshop:

From Quantum to Cosmos - III: Space-Based Research in Fundamental Physics

for the Next Decade,” edited by S. G. Turyshev (Washington, DC, 2008).

65) “Cryogenic Test of the Gravitational Inverse-Square Law,” H. J. Paik, K. Y.

Venkateswara, M. V. Moody, and V. Prieto, in the Proceedings of the 9th

International Conference on Gravitation and Astrophysics, edidted by J. Luo, Z.-

B. Zhou, H.-C. Yeh, and J.-P. Hsu (World Scientific, Singapore, 2010), pp. 26-39.

66) “Gravity and Relativistic Phenomena,” J. A. Nissen, Q. G. Bailey, J. A. Lipa, and

H. J. Paik, in the Proceedings of the 49th AIAA Aerospace Sciences Meeting

(Orlando, Florida, 2011).

67) “Determination of Gravitational Constant G Using a Superconducting Differential

Accelerometer,” H. J. Paik and I.-S. Kim, in the Proceedings of the 2012 US-

Korea Conference on Science, Technology, and Entrepreneurship (Garden Grove,

California, 2012).

68) “Detection of Lense-Thirring Effect with Gravity Gradient Measurement in

Space,” M. Shao, X. Li, H. J. Paik, T. Song, J. He, X. Bian, W. Tang, X. Peng, D.

48

Peng, in the Proceedings of Asian Microgravity Pre-Symposium (Guilin, China,

2012).

69) “Levitated Superconducting Gravity Gradiometer for Planetary Missions,” C. E.

Griggs, H. J. Paik, M. V. Moody, S. C. Han, D. D. Rowlands, F. G. Lemoine and

P. J. Shirron, in Proc. 2nd Int. Workshop Instrumentation for Planetary Missions

(Greenbelt, Maryland, November 4-7, 2014).

70) “Tunable superconducting gravity gradiometer for Mars climate, atmosphere, and

gravity field investigation,” C. E. Griggs, H. J. Paik, M. V. Moody, S. C. Han, D.

D. Rowlands, F. G. Lemoine, P. J. Shirron , Abstract 1735, in Proc. 46th Lunar

and Planetary Science Conference, (The Woodlands, Texas, March 16-20, 2015)

(http://www.hou.usra.edu/meetings/lpsc2015/pdf/1735.pdf).

71) “Terrestrial Detector for Low-Frequency Gravitational Waves Based on Full

Tensor Measurement,” with M. V. Moody, C. E. Griggs, H. M. Lee and E.

Majorana, in Proc. 11th Edoardo Amaldi Conference on Gravitational Waves

(Gwangju, Korea, June 21-26, 2015).

72) “Newtonian Noise Cancellation in Tensor Gravitational Wave Detector,” with J.

Harms, in Proc. 11th Edoardo Amaldi Conference on Gravitational Waves

(Gwangju, Korea, June 21-26, 2015).

73) “Design of superconducting gravity gradiometer cryogenic system for Mars

mission,” X. Li, F. G. Lemoine, H. J. Paik, M. Zagarola, P. J. Shirron, C. E.

Griggs, M. V. Moody and S.-C. Han, in Proc. Int. Cryocooler Conf. (San Diego,

California, June 20-23, 2016).

G. Contracts, Grants, and Proposals

1) "The Experimental and Analytical Development of a Sensitive Superconducting

Accelerometer and Gravity Gradiometer," with W.M. Fairbank and D.B. Debra,

AFOSR Grant, $80,000 (October 1978-September 1979). Joint Project with

Stanford University.

2) "Construction of a Prototype Superconducting Gravity Gradiometer," with J.-P.

Richard, NASA Contract, $55,000 (August 1979-July 1980).

3) "Development in a Sensitive Superconducting Gravity Gradiometer for

Geological and Navigational Applications," with J.-P. Richard, NASA Contract,

$900,000 (July 1980-July 1985).

4) "Research and Development of Gravitational Radiation Antennas," with W.S.

Davis, J.-P. Richard and J. Weber, NSF Grant, $835,000 (August 1979-August

http://www.hou.usra.edu/meetings/lpsc2015/pdf/1735.pdf

49

1982).

5) "Investigation of Noise in Solids at Low Temperatures," with W.S. Davis, J.-P.

Richard and J. Weber, $225,000 (March 1979-February 1982).

6) "Solid State Crystal Physics at Very Low Temperatures," with J. Weber, W.S.

Davis, and J.-P. Richard, NASA Grant, $80,705 (July 1979-November 1980).

7) "Research and Development of Gravitational Radiation Antennas," with J.-P.

Richard and J. Weber, NSF Grant, $1,050,000 (November 1982-November 1985).

8) "Development of Electronic Control of Superconducting Gravity Gradiometer,"

Army Corps of Engineers Contract, $95,000 (June 1984-February 1986).

9) "Development of a Sensitive Six-Axis Superconducting Accelerometer," Air

Force Contract, $510,000 (April 1985-March 1988).

10) "Development of a Three-Axis Superconducting Gravity Gradiometer for

Spaceborne Gravity Survey," NASA Contract, $1,010,000 (June 1985-June 1989).

11) "Research and Development of Sensitive Gravitational Radiation Antennas," with

J.-P. Richard and J. Weber, NSF Grant, $865,000 (December 1985-June 1989).

12) "Development of Electronic Control of Superconducting Gravity Gradiometer,"

Army Corps of Engineers Contract, $50,000 (September 1987-July 1988).

13) "Development of Superconducting Technology for Inertial Guidance, Gravity

Survey and Fundamental Gravity Experiments," Air Force Contract, $1,875,000

(September 1987-September 1992).

14) "Group Travel to the 5th Marcel Grossmann Meeting," with D.R. Brill and B.-L.

Hu, National Science Foundation Grant, $25,000 (March 1988-October 1988).

15) "Low Cost SQUID Electronics," with A.K. Drukier, Maryland Industrial

Partnerships (MIPS) Award, $49,709 (August 1988-August 1989).

16) "Development of a Three-Axis Superconducting Gravity Gradiometer for

Spaceborne Gravity Survey," NASA Contract, $2,100,000 (June 1989-December

1995).

17) "Development of Improved Gravitational-Wave Transducers," NSF Grant,

$489,000 (August 1990-July 1993).

18) "START Signature Analysis," with M.V. Moody, Contract with System Planning

Corporation, $18,000 (May 1992-September 1992).

50

19) "Cryogenic Sensors for Platform Stabilization," with E.R. Canavan, Air Force

Contract, $258,000 (September 1993-March 1995).

20) "Development of Improved Gravitational-Wave Transducers," with T.R.

Stevenson, NSF Grant, $489,000 (December 1993-March 1998).

21) "Superconducting Gravity Gradiometer Experiment," with M.V. Moody, NASA

Contract for Phase-A Study of IN-STEP (In-Space Technology Experiment

Program), $100,000 (March 1994-December 1994).

22) "Superconducting Gravimeter and Gravity Gradiometer Development," Sandia

National Laboratories Contract, $66,008 (August 1994-September 1994).

23) "Superconducting Gravimeter and Gravity Gradiometer Development," Sandia

National Laboratories Contract, $380,000 (June 1995-September 1997).

24) "Integration and Tests of Superconducting Angular Accelerometers with the

Superconducting Gravity Gradiometer," with M.V. Moody, NASA Grant,

$590,000 (November 1995-March 1998).

25) “Search for Spin-Mass Interaction with a Superconducting Differential Angular

Accelerometer,” with M.V. Moody, NASA Grant, $540,600 (February 1998-

December 2002).

26) “Fabrication and Testing of a Superconducting Transducer,” NSF Grant through

LSU, $135,000 (August 1998-July 1999).

27) “Search for Gravitational Waves with the Allegro Detector,” NSF Grant through

LSU, $285,000 (August 1999-July 2002).

28) “Superconducting Gravity Gradiometer for Moving-Base Applications,” with

M.V. Moody (P.I.), Contract with Lockheed-Martin, $564,500 (October 2002-

September 2004).

29) “Search for Gravitational Waves with the Allegro Detector,” NSF Grant through

LSU, $360,000 (February 2003-January 2006).

30) “Inverse-Square Law Experiment in Space (ISLES),” with M.V. Moody, NASA

Grant, $325,000 (April 2003-September 2007).

31) “Null Test of Newton’s Law of Gravitation on a 100-Micrometer Scale,” with

M.V. Moody, NSF Grant, $530,000 (June 2003-May 2009).

32) “Passive Gravitational Detection of Shielded Nuclear Materials,” Sandia National

51

Laboratories Contract, $180,000 (July-September 2003).

33) “New Technology Gravity Gradient Sensor,” with M.V. Moody (P.I.), Contract

with Lockheed-Martin, $75,000 (September-December 2004).

34) “Construction of a Model Gravitational Wave Detector,” Contract with the

Association for the Advancement of Scientific Culture, Korea, $50,000 (July

2004–June 2006).

35) “Superconducting Motion Sensor Technology for Moon/Mars Exploration,”

Contract with Jet Propulsion Laboratory, $100,000 (February 2005-September

2006).

36) “Superconducting Gravity Gradiometer (SGG) Sensor Test,” with M.V. Moody

(P.I.), Contract with Gedex, $347,573 (September 2005-August 2007).

37) “Seismometer Development at the University of Maryland,” Contract with Jet

Propulsion Laboratory, $88,000 (June 2006-March 2008).

38) “Superconducting Gravity Gradiometer (SGG) Sensor Test,” with M.V. Moody

(P.I.), Contract with Gedex, $1,108,109 (January 2007-June 2011).

39) “A Sensitive Broadband Seismometer for Lunar/Planetary Exploration,” NASA

Grant, $635,900 (May 2008-May 2012).

40) “Null Test of Newton’s Law of Gravitation on a 100-Micrometer Scale,” NSF

Grant, $300,000 (August 2009-July 2011).

41) “Superconducting Gravity Gradiometer for an Advanced Gravity Mission,”

NASA Grant, $530,000 (July 2011-June 2015).

42) “Null Test of Newton’s Law of Gravitation on a 100-Micrometer Scale,” NSF

Grant, $300,000 (September 2011-August 2015).

43) “Precision Gravity Measurements Using Superconducting Technology,” Contract

with Korea Research Institute for Standards and Science (KRISS), $200,000

(November 2011-October 2013).

44) “Tensor Superconducting Gravity Gradiometer for Space Applications,” NASA

Grant, $865,479 (July 2014-June 2018).

45) “Development of Superconducting Gravity Measurement Technologies,” Contract

with Korea Research Institute for Standards and Science (KRISS), $175,000

(March 2017-August 2018).

Documents

UNIVERSITY OF MARYLAND · Ho Jung Paik June, 2017 Research Professor I ... "Proof Mass Support and Sensing System," British Patent Application Nos. 9419649.0