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CURRICULUM VITAE: Dr. Sunita Srivastava
Name: Dr. Sunita Srivastava
Born: 20-10-1962, Varanasi Positions held: Professor,
Department of Physics, Panjab University,
Chandigarh (On Leave)
Department of Physics, Guru Jambheshwar
University of Science & Technology, Hisar
(on Deputation)
Educational Qualifications: Ph.D. (Physics) Panjab University (1992)
M.Phil. (Physics) Panjab University (1987)
NET (UGC) (1986)
M.Sc. (Physics), Panjab University, (1985)
B.Sc. Panjab University (1983)
AISSCE (+2) CBSE Board, Chennai (1980)
Matric CBSE Board, Delhi (1978)
(Throughout First Class) Address: Department of Physics, Guru Jambheshwar University of Science
& Technology, Hisar- 125001, INDIA
Tel: +91-01662-263382 (O),
+91-9876437838(M)
E-Mail: [email protected]
Specialization: (i) General Theoretical Physics
(ii) Transport properties of fluids
(iii) Nanoscience
(iv) Computer Simulation and Modelling
Distinctions : IInd Position in M.Sc.(Physics), Panjab University
IInd Position in M.Phil. (Physics), Panjab University
Experience: (28 years after Ph.D.)
Publications: 106
Contribution to Society: 1. President of Vigyan Bharti, Hisar
2. Vice President of Vigyan Bharti, Chandigarh
2. Written popular articles for Rashtriya Sewa Bharti Wing
Current Research specialization: Nano Science & Nanofluids
Current Research interests:
Electronic and Mechanical Properties of Hetero-structures of 2D materials
Transport properties of fluids flowing through nanochannels with different geometries
like rectangular and cylindrical nanochannels, nanocube and nanosphere. Effect of
confinement through change in the density profiles and also by considering different structures
of wall.
Theoretical modelling by incorporating the effect of fluid parameters such as temperature,
pH and mainly the random orientation of nonspherical nanoparticles. And also by developing
the appropriate computational models to describe their behavior - an important step for
optimizing the performance of nanofluids.
Behaviour of the nanofluid using polydisperse nanoparticles in thermal base fluid inside
micro or nanosized geometries using molecular dynamics simulations.
One possible avenue is the solar energy harvesting because nanofluids have better
absorbance than the existing absorbers so that by tailoring optically better nanoparticles with
the help of the density functional theory one could look for nanofluids useful for this purpose.
For the dynamics of soft core particles, one could study the behavior of polymers, DNA,
RNA or other biological systems under the effect of elastic and interacting walls. One could
also explore different shapes and dimensions of confining geometries.
Research Projects: (1) Major Research Project on “Thermal Conductivity of
Nanofluids” Funded by UGC for three years (2008-2011)
Courses Taught: (1) Mathematical Physics (M.Sc)
(2) Computational Physics (M.Sc)
(3) Classical Electrodynamics (M.Sc)
(4) Classical Mechanics (M.Sc)
(5) Condensed Matter Physics (M.Sc)
(6) Statistics & Thermodynamics (B.Sc.)
(7) Electronics and Optics (B.Sc)
(8) Scientific Computer Simulation (M.Tech: NanoScience and Technology)
(9) Computational Techniques (M.Phil & Pre-Phd.Courses)
(10) Nanofluidics (M.Tech. (NSNT))
Conference/Workshop/Symposia Organized:
• Organised DAESSPS- 2018 as Local Convener at GJU S & T, Hisar
• Oral Paper Presentation on Electronic and Mechanical Properties of various phases of MoSe2’’in 3rd
International Conference on ‘Advances in Functional Materials’ in University of California, Los Angeles,
US, 14-17 Aug, 2017.
• Member of LOC of 3rd, 4th and 5th IAPT National Student Symposium on Physics, Indian
Association of Physics Teachers and Department of Physics, Panjab University,
• Organized workshop on ‘PARALLEL COMPUTING USING HPCC’ in 2013 and 2012 in
the Department of Physics, Panjab University Chandigarh.
• Member of LOC of Conference ‘ International Conference on Advances in Condensed and
Nano Materials’ at Panjab University, Chandigarh (ICACNM 22, 23-26 Feb., 2011)
• Member of LOC of Seminar ‘International Seminar on Current Trends in Quantum Gases,
BEC and Solitons’, Department of Physics, Panjab University, Chandigarh, 3–6 March 2014
• Member of LOC of DST-SERC School on Nonlinear Dynamics, Department of Physics,
Panjab University, Chandigarh, January 27- February 18, 2014
• Member of LOC of 2nd IAPT National Student Symposium on Physics, Indian Association
of Physics Teachers and Department of Physics, Panjab University, Chandigarh. 17- 19
January, 2014.
Administrative Experience: Member- Courts of MDU, Rohtak and Bhagat Phool Singh Mahila Vishwavidyala, Khanpur
Member- Selection committees at University level Member- Administrative Committee, Academic Committee and Technical committee, Department of Physics Member- PGAPMEC Department of Physics
Courses Designed: Computational Physics( M.Sc),
M.Tech: Nano Science and Nano Technology
Ph.D. Students : (i)Awarded: 10
(ii) submitted: 01
(iii) Working: 05
M.Sc. IVth Semester Project Students: 26
Membership: Life member of IPA, IAPT
Invited Lectures as Resource Person: 32
LIST OF PUBLICATIONS: Dr. Sunita Srivastava
Articles/Chapters in Books
1. Variational Perturbation Theory (Sunita Srivastava and Vishwamittar) in a book “Path
Integrals in Quantum Mechanics, Statistics, Polymer Physics and Financial Markets”
Editted by Hagen Kleinert (World Scientific Publishing Co.Pvt.Ltd.,1990).
2. Restricted flow in Nano-Channels (K. Tankeshwar, Sunita Srivastava and Jyoti Sood)
in a book “Nanotechnology Research Progress”, Editor Julian F. Vogel and Felix T.
Jung ( Nova Publishers. New York, 2009)
3. Transport properties of colloidals in bulk and in confinement at nanoscale (Gaganpreet,
Sunita Srivastava and K.Tankeshwar ) in a book “Nanoscience and Technology” (Nova
Science Publishers, New York 2015))
Research Papers in Journals
1. Novel Phosphorus Based 2D Allotropes with Ultra High Mobility (Sumandeep Kaur,
Ashok Kumar, Sunita Srivastava, K. Tankeshwar and Ravindra Pandey)
Nanotechnology (accepted) DOI: 10.1088/1361-6528/ab8cf1
2. Electronic and optical properties of 2D monolayer (ML) MoS2 with vacancy defect at S
sites (D.P.Rai, Tuan V. Vu, Amel Laref, M.P.Ghimire, P.K.Patra and Sunita Srivastava)
Nano Structures & Nano- Objects 21 (2020) 100404
3. S-Functionalized Mo 2 C Monolayer as a Novel Electrode Material in Li-Ion Batteries
(Veenu Mehta, Hardev S. Saini, Sunita Srivastava, Manish K. Kashyap and K.
Tankeshwar) J. Phys. Chem. C 123, 41, (2019) 25052-25060
4. Monolayer, Bilayer, and Heterostructures of Green Phosphorene for Water Splitting and
Photovoltaics (Sumandeep Kaur, Ashok Kumar, Sunita Srivastava, K. Tankeshwar and
Ravindra Pandey )J. Phys. Chem. C 122 (2018) 26032
5. Application of Hidden Markov Model for avalanche danger simulations for road
sectors in North-West Himalaya (Jagdish Chandra Joshi, Tankeshwar Kumar,
Sunita Srivastava, Divya Sachdeva and Ashwagosha Ganju)
Natural Hazards 93 (2018) 1127
6. Strain-mediated electronic properties of pristine and Mn-doped GaN monolayers (Venus
Sharma and Sunita Srivastava) Mater. Res. Express 5 (2018) 045001
7. Stability and Carrier Transport Properties of Phosphorene Based Polymorphic
Nanoribbons (Sumandeep Kaur, Ashok Kumar, Sunita Srivastava, Ravindra
Pandey and K Tankeshwar) Nanotechnology 29 (2018) 155701
8. Band gap modulation of mono and bi-layer hexagonal ZnS under transverse electric field
and bi-axial strain: A first principles study (D.P.Rai,, Sumandeep Kaur and Sunita
Srivastava ) Physica B: Condensed Matter 531 (2018) 90
9. Structural, electronic, mechanical, and thermoelectric properties of a novel half Heusler
compound HfPtPb (Kulwinder Kaur, D. P. Rai, R. K. Thapa, and Sunita Srivastava)
Jl. of Appl. Physics 122 (2017) 045110
10. Van der Waals heterostructures based on allotropes of phosphorene and MoSe2
( Sumandeep Kaur, Ashok Kumar, Sunita Srivastava and K. Tankeshwar) Phys. Chem.
Chem. Phys. 19 (2017) 22023
11. Hidden Markov Model for quantitative prediction of snowfall and analysis of hazardous
snowfall events over Indian Himalaya (J C Joshi, K Tankeshwar and Sunita Srivastava)
Jl. of Earth Sys. Sc., 126 (2017) 33
12. Optimisation of Hidden Markov Model using Baum–Welch algorithm for prediction of
maximum and minimum temperature over Indian Himalaya (J C Joshi,
Tankeshwar Kumar, Sunita Srivastava and Divya Sachdeva) J. Earth Syst. Sci. (2017)
126: 3 c
13. Electronic structure engineering of various structural phases of phosphorene
(Sumandeep Kaur, Ashok Kumar, Sunita Srivastava and K. Tankeshwar)
Phys.Chem.Chem.Phys. 18 (2016) 18312
14. Erratum to: Particle density and transition temperature of weakly interacting quantum
gases (Renu Bala, Sunita Srivastava and Kare Narain Pathak) Eur. Phys. J. B (2016) 89:
160. doi:10.1140/epjb/e2016-70349-2
15. Spin-polarised DFT study of cobalt-doped gallium clusters (Venus Sharma · Akshu
Pahuja · Sunita Srivastava) Mol.Phys. 114 (2016) 1472
16. Particle density and transition temperature of weakly interacting quantum gases (Renu
Bala · Sunita Srivastava and Kare Narain Pathak) Eur. Phys. J. B (2015) 88: 258
17. The role of fluid-wall interactions on confined liquid diffusion using Mori theory (Reena
Devi1, Sunita Srivastava1 and K. Tankeshwar) J. Chem. Phys. 143, 024506 (2015)
18. Viscosity of nanofluids: particle shape and fractal aggregates (Gaganpreet and
Sunita Srivastava) Physics and Chemistry of Liquids 53 (2015) 174
19. Electronic transport properties of doped Cfullerene (Akshu Pahuja and Sunita
Srivastava) Physics Research International, Volume 2014, Article ID 872381, 7 pages,
http://dx.doi.org/10.1155/2014/872381
20. Magnetic properties of small ruthenium clusters in fullerene cage — A DFT study
(Sunita Srivastava and Akshu Pahuja) Int. J. Mod. Phys. B 28, 1450184 (2014) [14
pages] DOI: http://dx.doi.org/10.1142/S0217979214501847
21. The interfacial layer effect on thermal conductivity of CNT nanofluids (Ritu Pasrija and
Sunita Srivastava) CURRENT SCIENCE, VOL. 107 (2014) 1001
22. The Interfacial Layer Effect on Thermal Conductivity of Nano-Colloidal Dispersions
(Pasrija R and Srivastava S) International Journal of Applied Physics and Mathematics
4( 2014)pages 4.
23. Static and dynamic effects of confinement on self-diffusion (Reena Devi, Sunita
Srivastava & K Tankeshwar) Physics and Chemistry of Liquids 52 (2014) 636,
DOI: 10.1080/00319104.2014.904860
24. The Interfacial Layer and the Thermal Conductivity of Nanofluid (Ritu Pasrija and
Sunita Srivastava) Heat Transfer—Asian Research, 43 (2014) 288.
25. Spin Polarized Electrons in a Metallic Quantum Wire (Renu Bala, R. K. Moudgil, Sunita
Srivastava and K. N. Pathak) Eur. Phys. J. B (2014) 87: 5, DOI: 10.1140/epjb/e2013-
40567-3
26. DFT study of structural and electronic properties of endohedral complexes of group V
atoms with C60 ( Akshu Pahuja and Sunita Srivastava) International Journal of
Modern Physics B 27 (2013) 1350152 DOI: 10.1142/S021797921350152X
27. Longitudinal and volume viscosities of fluids confined in nanochannel (Ishu Goyal,
A.H.M. Zaheri, Sunita Srivastava & K.Tankeshwar) Physics and Chemistry of
Liquids, 2013, http://dx.doi.org/10.1080/00319104.2012.760088
28. Role of Triplet Correlations in Anomalous Self- Diffusion Coefficient (Gaganpreet,
Sunita Srivastava, and K. Tankeshw ar) Chemical Physics, Volume 405, p. 60-66.
29. Exchange and correlation effects on density excitation spectra of metallic quantum wires
at finite temperature (Bala R, Moudgil RK, Srivastava S, Pathak KN.) J Phys Condens
Matter. 24 (2012) 245302.
30. Effect of aggregation on thermal conductivity and viscosity of nanofluids (Gaganpreet
and Sunita Srivastava) Appl Nanosci 2 (2012) 325–331
31. Effect of Roughness of Confining Surface on Diffusive Motion of Fluid (K.
Tankeshwar and Sunita Srivastava) Micro Nano Systems, 4 (2012) 25-28
32. Dynamics of fluids contained in Nanocube (Reena Devi, Sunita Srivastava,
K.Tankeshwar) Nano Biomedicine Engineering 3 (2011) 47.
33. Diffusion of fluid confined to nanotube with rectangular cross section (Reena Devi, Jyoti
Sood, Sunita Srivastava and K.Tankeshwar) Microfluidics and Nanofluidics 9 (2010) 737.
34. Dynamics of gelling liquids: Algebraic Relaxation: Sunita Srivastava, CN Kumar,
K.Tankeshwar J.Phys: Condensed Matter 21 335106 (2009).
35. Effect of Mass on Shear Viscosity of Binary Fluid Mixture confined to Nanochannel
(Roahn Kaushal, Sunita Srivastava and K. Tankeshwar) Int. Journ. Nanosci. 8 (2009)
36. Effect of Nano-Confinement on Molecular Motion of Fluid (K. Tankeshwar, Sunita
Srivastava and Jyoti Sood) Volume 2 Issue 2/3 (Nanotechnology Research Journal) (2008)
37. Longitudinal and Bulk viscosity of Binary fluid Mixtures, A.H.M.Zaheri, Sunita
Srivastava and K.Tankeshwar Eur. Phys. J. B 61, 465-473 (2008).
38. “TEMPOS devices as humidity sensors” M. Saroch, S. Srivastava, D. Fink and A. Chandra,
Radiation Effects and Defects in Solids 163 (2008) 645.
39. “Room Temperature Ammonia Gas Sensing using Mixed Conductor based TEMPOS
Structures” Mamta Saroch , Sunita Srivastava , Dietmar Fink and Amita Chandra , Sensors
Sensors 2008, 8(10), 6355-6370
40. Theoretical evaluation of bulk viscosity: Expression for relaxation time (A.H.M.Zaheri,
Sunita Srivastava and K.Tankeshwar) Phys.Rev.E 76 (2007) 041204.
41. Dynamical model for restricted diffusion in nano-channels (with Tankeshwar)
Nanotechnology 18 (2007) 485714
42. Longitudinal and Bulk viscosity of expanded Rb (with A.H.M.Zaheri and K.Tankeshwar)
J.Phys.Condens.Matter 15 (2003) .6683.
43. Memory function from its equation of motion,(with Shaminder Singh, C.N.Kumar,
K.Tankeshwar) Phys.Chem.Liq. (UK)41 (2003) 567
44. Estimation of Bulk viscosity of expanded Rb (with K.Tankeshwar) Phys.Chem.Liq. (UK)
37 (4) (1999) 351.
45. Energy eigen values of double well oscillator with mixed cubic and quartic anharmonicities
(with Meena Bansal, Mamta and Vishwamittar) Chem.Phys.Lett.195 (1992) 505.
46. Free energies of an oscillator with mixed cubic and quartic anharmonicities (with
Vishwamittar) Pramana 39 (1992) 9.
47. A study of energy eigen values of double well oscillators with mixed quartic and sextic
anharmonicities (with Meena Bansal and Vishwamittar) Phys.Rev.A(Pub:American
Physical Society) 44 (1991) 8012.
48. Determination of free energies of an oscillator with mixed quartic and sextic
anharmonicities (with Vishwamittar) Phys.Rev.A(Pub:American Physical Society)44
(1991) 8006.
49. On the quantization of linearly damped harmonic oscillator (with Vishwamittar and
I.S.Minhas) J.Math.Phys.32 (1991) 1510.
50. Energies of oscillators with mixed quartic and sextic anharmonicities (with Vishwamittar)
Mol.Phys.72 (1991)1285.
51. Renormalised hypervirial pade calculation of energies for V(x)=m( ½ω2x2+ ) (with
Vishwamittar) Chem.Phys.Lett. 176 (1991) 266.
52. Applications of perturbation theory to damped sextic oscillator (with Vishwamittar)
J.Math.Phys.30 (1989) 2815.
53. Photon cloud effects on Isomultiplet mass difference of charmed and uncharmed baryons
(with R.C.Verma) Phys.Rev.D38 (1988) 1623.
54. Analysis of magnetic hysteresis loop data for FeScMn and FeSiAl systems (with
Vishwamittar) J.Magn.Magn.Mat. 74(1988)316.
55. Electromagnetic Mass Differences of 1/2 +baryons in quark and Skyrme models (with
R.C.Verma) Phys.Rev.D35 (1987) 965.
56. Revelation of Quantum characteristics in motion of anharmonic oscillator (with
Vishwamittar) Phys.Rev.A(Pub:American Physical Society) (to be revised).
57. Effect of second order Doppler shift and Miedema-Vander Woude model coefficients
(with Mudita Sud and Vishwamittar) Ind.J.Pure and Appl. Phys.27 (1989) 800.
(C) OTHER JOURNALS/PROCEEDINGS
58. Tunable band gap of n-type GaN nanosheet: Effect of electric field and site of doping
(Veenu Sharma and Sunita Srivastava) AIP Conference Proceedings 2142(1) (2019)
110030; DOI: 10.1063/1.5122490
59. Stability and tunable electronic structure of planar phosphorus nanotubes ( Shilpa Singh,
Sumandeep Kaur, Sanjeev K Gupta, Ashok Kumar and Sunita Srivastava) AIP
Conference Proceedings 2115 (2019) 030383;doi.org/10.1063/1.5113222
60. Stability and electronic properties of two dimensional pentagonal layers of palladium
chalcogenides (Ashok Kumar, Mukesh Jakhar, Sunita Srivastava and K. Tankeshwar)
AIP Conference Proceedings 2115(1) (2019) 030387; DOI: 10.1063/1.5113226
61. Energetics and electronic structure of novel hybrid dumbbell monolayers (Sumandeep
Kaur Jaspreet Singh, Ashok Kumar, Sunita Srivastava, and K. Tankeshwar) AIP
Conference Proceedings 2115(1) (2019) 030382; DOI: 10.1063/1.5113221
62. Strain dependence of electronic properties and effective masses of monolayer ZnO from
density functional theory (Lalrinkima, Lahriatzuala, D. P. Rai, and Sunita Srivastava)
AIP Conference Proceedings 2115, 030093 (2019); doi.org/10.1063/1.5112932
63. Adsorption of nucleobases on different allotropes of phosphorene (Mukesh
Jakhar, Ashok Kumar, Sunita Srivastava, Prakash Parida, and K. Tankeshwar) AIP
Conference Proceedings 2115, 030361 (2019); doi.org/10.1063/1.5113200
64. Exploration of Mn intercalated GaN bilayer semiconductor sheets (Venus Sharma and
Sunita Srivastava) AIP Conference Proceedings 2115(1) (2019) 030182;
DOI: 10.1063/1.5113021
65. Electronic structure and simulated STM images of non-honeycomb phosphorene
allotropes (Sumandeep Kaur, Ashok Kumar, Sunita Srivastava, and K. Tankeshwar) AIP
Conf. Proc. 1942, 080020 (2018); doi.org/10.1063/1.5028854
66. Spin polarized first principles study of Mn doped gallium nitride monolayer nanosheet
(Venus Sharma, Sumandeep Kaur, Sunita Srivastava and Tankeshwar Kumar) AIP Conf.
Proceedings 1832, 050171 (2017); doi.org/10.1063/1.4980404
67. Electronic properties of Phosphorene/MoSe2 vertical hetero-structures (Sumandeep
Kaur, Ashok Kumar, Sunita Srivastava, and K. Tankeshwar) AIP Conference
Proceedings 1832, 050049 (2017); https://doi.org/10.1063/1.4980282
68. Sulphur adsorption on gold monolayer (Damanpreet Kaur, Sumandeep Kaur, and Sunita
Srivastava) AIP Conference Proceedings 1832, 050151
(2017); https://doi.org/10.1063/1.4980384
69. Dynamical effect of confining wall on diffusion of fluid at nanoscale (Reena
Devi · Sunita Srivastava · K. Tankeshwar) AIP Conf. Proc. 1728,
020388 (2016); http://dx.doi.org/10.1063/1.4946439
70. Electronic properties of phosphorene/graphene heterostructures: Effect of external
electric field (Sumandeep Kaur · Ashok Kumar · Sunita Srivastava · K Tankeshwar) AIP
Conf. Proc. 1731, 050012 (2016); http://dx.doi.org/10.1063/1.4947666
71. Effect of Elasticity of wall on Diffusion in Nanochannel ( K.Tankeshwar and Sunita
Srivastava) AIP Conf. Proc. 1591, 323 (2014); http://dx.doi.org/10.1063/1.4872588
72. Dynamics of Confined Fluid using Memory Function ( Reena Devi, Sunita Srivastava
and K.Tankeshwar) AIP Conference Proceedings 1591, 1324 (2014); doi:
10.1063/1.4872946
73. Impact of Empirical Shape Factor on the Thermal Conductivity of Nanofluids (Shilpy
Bhullar and Sunita Srivastava) 7th Chandigarh Science Congress, Panjab University,
CHASCON-2013, Chandigarh (March 1-3, 2013).pp-41,pg. 183.
74. Encapsulation of Gd Atom in C40 Cage (Akshu Pahuja and Sunita Srivastava) 7th
Chandigarh Science Congress, Panjab University, CHASCON-2013, Chandigarh (March
1-3, 2013). Pp. 45, pg.184
75. Systematic Analysis of Endohedral Doping of C36 Molecule (Akshu Pahuja and Sunita
Srivastava) National Conference on Production and Engineering Material, Deen
Bandhu Chotu Ram University, Murthal, (15-17 March, 2013)
76. Effect of Electrically Charged confinement on Diffusion of Ionic Fluid. (Ishu Goyal,
Sunita Srivastava and K.Tankeshwar) AIP Conference Proceedings Volume 1393,
ICACNM (23-26 Feb.2011), Chandigarh,pp 323-324
77. Self Diffusion of fluid confined in a cylindrical nanotubes of different diameters. (Reena
Devi, Sunita Srivastava and K.Tankeshwar) AIP Conference Proceedings Volume 1393,
ICACNM (23-26 Feb.2011), Chandigarh,pp 325-326
78. Anomalous behavior of Mori’s coefficients for the Gaussian Core fluid
(Gaganpreet, Sunita Srivastava and K.Tankeshwar) AIP Conference Proceedings
Volume 1393, ICACNM (23-26 Feb.2011), Chandigarh,pp 263-264
79. Nanofluids: Future Industrial Coolants, (Sakshi Arora, Sunita Srivastava and Rajesh
Kumari) AIP Conference Proceedings Volume 1393, ICACNM (23-26 Feb.2011),
Chandigarh,pp 301-302
80. Molecular dynamic simulations with glue potentials, (Ritu Pasrija and Sunita
Srivastava) AIP Conference Proceedings Volume 1393, ICACNM (23-26 Feb.2011),
Chandigarh,pp 279-280
81. DFT study of structural and electronic properties of endohedral complexes of group V
atoms with C60, (Sunita Srivastava and Akshu Pahuja) AIP Conference Proceedings
Volume 1393, ICACNM (23-26 Feb.2011), Chandigarh,pp 327-328
82. Effect of Particle Shape and Interfacial Layer in Thermal Conductivity and Viscosity of
Nanofluids (Gaganpreet and Sunita Srivastava) AIP Conf. Proc. 1349, 407 (2011)
83. Thermal Conductivity for a Linear Anharmonic System (Ritu Pasrija, Kanika ,
and Sunita Srivastava) AIP Conf. Proc. 1349, 1051 (2011).
84. Encapsulation of Sb in C60 cage (Akshu Pahuja and Sunita Srivastava ) AIP
Conf. Proc. 1349, 877 (2011)
85. Dynamics of Fluid in a Nanotube (Reena Devi, Sunita Srivastava, and K.
Tankeshwar) AIP Conf. Proc. 1349, 403 (2011)
86. Collective Dynamics of Liquid Potassium Near Melting Point (Ishu Goyal,
Jyoti Sood, Sunita Srivastava, and K. Tankeshwar ) AIP Conf. Proc. 1349, 573
(2011)
87. Effect of Exchange-correlations and Temperature on Plasmons in Nano-scale
Gold Wire (Renu Bala, R. K. Moudgil, Sunita Srivastava, and K. N. Pathak )
AIP Conf. Proc. 1349, 433 (2011)
88. Diffusion in Rectangular nano tube ( Reena Devi, Sunita Srivastava,
K,Tankeshwar) DAE Symp. (2009)
89. Ground state of anharmonic oscillator using a variational Monte Carlo method,
R.Devi and S.Srivastava, 3rd Chandigarh Science Congress, Panjab University,
CHASCON-09, Chandigarh (26-28 February,2009).
90. Shape optimization using hyperbolic function, Gaganpreet and S.Srivastava, 3rd
Chandigarh Science Congress, Panjab University, CHASCON-09, Chandigarh
(26-28 February,2009)
91. Pressure dependence of thermal conductivity of Nanofluids (with Ritu Pasrija
and Manuk Zubin Mehta) Pb.Sc.Congress (2007), 129.
92. On the microconvective contribution to thermal conductivity of Nanofluids
(with Manuk Zubin Mehta and Ritu Pasrija) Chd.Sc.Congress (2007) 235
93. Prolate shape of Nanoparticles in Nanofluids (with Navneet Virk and Manuk
Zubin Mehta) Chd.Sc.Congress (2007) 237
94. Transport Properties of Nanofluids (oral presentation) National Seminar on
‘Theoretical and Experimental Techniques in Nanoscience and
Nanotechnology’, Chandigarh – TETNN-07 (2007) 18
95. Enhancement of viscosity of fluids in nano channels (with Tankeshwar) DAE
Symposium 2007, Mysore
96. Complex Impedance property of humidity sensing TEMPOS devices (with M.Saroch and
A.Chandra) DAE Symposium 2007, Mysore.
97. Algebraic Relaxation of time correlation function (with C.N.Kumar and K.Tankeshwar)
ICTP Report, IC/2004/33 (2004).
98. A new form of memory function (with Shaminder Singh and C.N.Kumar) DAE Solid
State Phys.Symp., Chandigarh (2002)
99. Longitudinal and Bulk Viscosity of expanded Rb., Solid State Phys.Symp. (1997).
100. On the model of glass transition (With Rajneesh K.Sharma and K.Tankeshwar)
National Seminar on disordered materials, Jaipur (1994)
101. Information theory for the calculation of transport coefficients of classical fluids
(with K.Tankeshwar ) Solid State Phys.Symp. 36C Bombay (1993)
102. A glimpse of history of experience based physics (With Meena Bansal and
Vishwamittar) Bull IAPT (1992)
103. Free energies of potential used in phase transition modeling (with Vishwamittar)
Solid State Phys. Symp.33 (1991) 336.
104. Medical profession and Physics: A historical perspective (with Meena Bansal
and Vishwamittar) Bull.IAPT 1 (1991) 142.
105. The hypervirial Pade calculations of energies of an anharmonic oscillator
(with Vishwamittar) , National Seminar on Chemical Physics (1990)
106. Erwin Schroedinger and his wave mechanics (with Vishwamittar) Bull.IAPT 4
(1987) 283.
