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Curriculum Vita: Philip J. Armitage
JILAUniversity of ColoradoBoulder CO 80309-0440
Tel: 303-492-7836email: [email protected]: http://jila.colorado.edu/⇠pja/
Education
1993 – 1996
Ph.D. in Theoretical Astrophysics, Institute of Astronomy, University of CambridgeThesis title: Accretion disks in T Tauri stars & interacting binaries
Thesis supervisor: Dr Cathie J. Clarke
1990 – 1993
B.A.: Physics & Theoretical Physics, University of Cambridge
Research Interests
Theoretical and computational astrophysics including: (1) Formation and evolution of ex-trasolar planetary systems, (2) Astrophysics of black holes
Employment
currently
Professor, Department of Astrophysical and Planetary Sciences, University of Colorado,Boulder, and Fellow of JILA
2007-2009, & 2012-2014
Associate Chair, APS Department
2007-2012
Associate Professor, University of Colorado, Boulder
2002 – 2007
Assistant Professor, University of Colorado, Boulder
2000 – 2001
Lecturer, School of Physics and Astronomy, University of St Andrews, UK
1999 – 2000
Postdoctoral Fellow, Max-Planck Institute for Astrophysics, Garching, Germany
1996 – 1999
Junior Research Associate, CITA, University of Toronto, Canada
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Research Support
Current support from the National Science Foundation, and from NASA’s AstrophysicsTheory, Origins of Solar Systems, and Exoplanet Research Programs.
Books
‘Astrophysics of planet formation’P.J. Armitage, Graduate level textbook published by Cambridge University Press (2010),294 pp, ISBN: 9780521887458
Teaching activities
Graduate student supervision
Mr Dan Gole (current)
Dr Dimitri Veras (Ph.D. 2007). Dr Veras currently holds a postdoctoral position at theUniversity of Warwick.
Dr Jared Workman (Ph.D. 2010). Dr Workman currently holds a faculty position at MesaState College, Colorado.
Dr Anna Hughes (Ph.D. 2011). Dr Hughes currently works as a Sta↵ Scientist with theNational Solar Observatory.
Postdoctoral mentoring
4 current and 11 former postdoctoral level researchers
Summer schools taught
2008: XIII Special Courses at the National Observatory of Rio de Janeiro, Brazil.2011: ‘Physics of Stars’, International Advanced Research School on Physics, Turkey.2013: ‘Astrophysical Turbulence: From Galaxies to Planets’, Dresden, Germany.2013: Lectures on planet formation, Istanbul, Turkey.2015: ‘Physical processes in protoplanetary disks’, 45th Saas-Fee Advanced School “FromProtoplanetary Disks to Planet Formation”, Switzerland.2015: ‘Overview of Planet Formation’, Niels-Bohr International Academy, Denmark.
Classes taught
undergraduate Astrophysical Processes (UK, St Andrews)undergraduate Stellar Physics (UK, St Andrews)
all other classes at University of Colorado, Boulder
graduate Stellar Structure and Evolutionundergraduate Astrophysics I & IIgraduate Origin and Evolution of Planetary Systemsundergraduate General Astronomy: Stars and Galaxiesgraduate Internal Processes 1
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undergraduate Extraterrestrial Lifegraduate Radiative and Dynamical Processesundergraduate Black Holesundergraduate Solar System Formation & Dynamics
Recent invited colloquia / lectures
2016
Institute of Astronomy, University of Cambridge
2015
Joint Princeton / IAS colloquiumColloquium, University of ZurichColloquium, University of Wyoming
2014
Theoretical astrophysics colloquium, BerkeleyJoint colloquium NTU / ASIAA, Taipei, TaiwanPhysics colloquium, University of BathHigh Altitude Observatory colloquium, NCAR, BoulderPhysics and astronomy colloquium, Stony BrookTAC colloquium, Arizona
2013
Eddington Lecture, University of Cambridge & Royal Astronomical SocietyDepartment of Applied Mathematics, University of ColoradoColloquium, MPA, Germany
2012
University of AmsterdamUniversity of Arizona (Lunar and Planetary Laboratory)Max-Planck Institute for Dynamics and Self-Organization (Goettingen)TU Braunschweig, GermanyUniversity of California, Santa Cruz2011
Department of Astronomy and Astrophysics, Catolica University, SantiagoDepartment of Physics, University of MilanDepartment of Physics and Astronomy, University of LeicesterDepartment of Physics and Astronomy, University of DenverKavli Institute for Theoretical Physics, University of California, Santa BarbaraHarvard University (Institute for Theory and Computation colloquium)Department of Physics and Astronomy, University of RochesterCITA, University of TorontoDepartment of Astronomy, Yale
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Selected service activities
University of Colorado
Associate Chair, APS Department, 2012-2014, & 2007 - 2009, Interim Chair Fall 2008Member, APS Executive Committee, 2007 - 2009, & 2011 – 2014Member, JILA Executive Committee, 2011-2012, 2015Chair, APS astrophysics faculty searches, 2015Chair, special opportunity faculty search committee, 2010Member, College of Arts & Sciences Appeals Committee on Academic Rules and Policies(2008, 2009, 2012, 2013, 2014)
Astronomical community
Member of the Advisory Board, Kavli Institute for Theoretical Physics, University of Cali-fornia, Santa Barbara (2011 - 2014)SOC member, ‘Workshop on young solar systems’ (Sant Cugat, Spain 2016)SOC member, ‘Disc dynamics and planet formation’ (Larnaka, Cyprus 2015)Co-organizer, Kavli IPMU workshop on hyper accretion (2014)SOC member, XXVI IUPAP conference on computational physics (2014)SOC member, ‘Putting accretion theory to the test’ (Annapolis JSI workshop, 2013)Convenor, American Physical Society special session on ‘Numerical relativity’ (April meeting,2013)SOC member, ‘From stars to life’ conference (Florida, 2013)Lead member, external review panel for University of Nevada Las Vegas Physics Departmentprogram review (2009)Astrophysics representative, standing NSF committees (Large and Medium Resource Allo-cation Committees) for allocation of TeraGrid supercomputing resources (2006, 2007, 2008)
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Publications: Philip J. Armitage
Books
‘Astrophysics of planet formation’P.J. Armitage, Graduate level textbook published by Cambridge University Press (2010),294 pp, ISBN: 9780521887458
Reviews
‘Dynamics of protoplanetary disks’P.J. Armitage, Annual Review of Astronomy and Astrophysics (2011), 49, 195-236
‘The long-term dynamical evolution of planetary systems’M.B. Davies, F. Adams, P.J. Armitage, J. Chambers, E. Ford, A. Morbidelli, S. Raymond &D. Veras, Protostars & Planets VI, Henrik Beuther, Ralf S. Klessen, Cornelis P. Dullemond,and Thomas Henning (eds.), University of Arizona Press, Tucson, 914 pp., p.787-808 (2014)
‘The dispersal of protoplanetary disks’R. Alexander, I. Pascucci, S. Andrews, P.J. Armitage, L. Cieza, Protostars & Planets VI,p.475-496 (2014)
‘Physical processes in protoplanetary disks’P.J. Armitage, to be published as 45th Saas-Fee Advanced course “From ProtoplanetaryDisks to Planet Formation” (2016)
Publications in refereed journals
[1] ‘Magnetically modulated accretion in T Tauri stars’C.J. Clarke, P.J. Armitage, K.W. Smith & J.E. Pringle, 1995, MNRAS, 273, 639-642
[2] ‘Magnetic cycles and photometric variability of T Tauri stars’P.J. Armitage, 1995, MNRAS, 274, 1242-1248
[3] ‘Dynamo-driven accretion disks and dwarf nova eruptions’P.J. Armitage, M. Livio & J.E. Pringle, 1996, ApJ, 457, 332-339
[4] ‘Magnetic braking of T Tauri stars’P.J. Armitage & C.J. Clarke, 1996, MNRAS, 280, 458-468
[5] ‘Accretion disks in interacting binaries: Simulations of the stream-disk impact’P.J. Armitage & M. Livio, 1996, ApJ, 470, 1024-1032
[6] ‘Red giant-disk encounters: Food for quasars?’P.J. Armitage, W.H. Zurek & M.B. Davies, 1996, ApJ, 470, 237-248
[7] ‘The ejection of T Tauri stars from molecular clouds and the fate of circumstellar discs’P.J. Armitage & C.J. Clarke, 1997, MNRAS, 285, 540-546
[8] ‘Radiation-induced warping of protostellar accretion disks’P.J. Armitage & J.E. Pringle, 1997, ApJ, 488, L47-L50
[9] ‘Hydrodynamics of the stream-disk impact in interacting binaries’
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P.J. Armitage & M. Livio, 1998, ApJ, 493, 898-908
[10] ‘Simulations of spiral structure in the accretion disc of IP Pegasi during outburst’P.J. Armitage & J.R. Murray, 1998, MNRAS, 297, L81-L85
[11] ‘Turbulence and angular momentum transport in a global accretion disk simulation’P.J. Armitage, 1998, ApJ, 501, L189-L192
[12] ‘Tilted accretion discs in cataclysmic variables: tidal instabilities and superhumps’J.R. Murray & P.J. Armitage, 1998, MNRAS, 300, 561-566
[13] ‘The e↵ects of tidally induced disc structure on white dwarf accretion in intermediatepolars’J.R. Murray, P.J. Armitage, L. Ferrario & D.T. Wickramasinghe, 1999, MNRAS, 302, 189-196
[14] ‘Accretion disc evolution in single and binary T Tauri stars’P.J. Armitage, C.J. Clarke & C.A. Tout, 1999, MNRAS, 304, 425-433
[15] ‘The Blandford-Znajek mechanism and the emission from isolated accreting black holes’P.J. Armitage & P. Natarajan, 1999, ApJ, 523, L7-L10
[16] ‘Warped discs and the directional stability of jets in active galactic nuclei’P. Natarajan & P.J. Armitage, 1999, MNRAS, 309, 961-968
[17] ‘Lense-Thirring precession of accretion disks around compact objects’P.J. Armitage & P. Natarajan, 1999, ApJ, 525, 909-914
[18] ‘Early planet formation as a trigger for further planet formation’P.J. Armitage & B.M.S. Hansen, 1999, Nature, 402, 633-635
[19] ‘Black hole formation via hypercritical accretion during common-envelope evolution’P.J. Armitage & M. Livio, 2000, ApJ, 532, 540-547
[20] ‘Suppression of giant planet formation in stellar clusters’P.J. Armitage, 2000, A&A, 362, 968-972
[21] ‘Simulations of accretion flows crossing the last stable orbit’P.J. Armitage, C.S. Reynolds & J. Chiang, 2001, ApJ, 548, 868-875
[22] ‘Episodic accretion in magnetically layered protoplanetary discs’P.J. Armitage, M. Livio & J.E. Pringle, 2001, MNRAS, 324, 705-711
[23] ‘A variable e�ciency for thin-disk black hole accretion’C.S. Reynolds & P.J. Armitage, 2001, ApJ, 561, L81-L84
[24] ‘The brown dwarf desert as a consequence of orbital migration’P.J. Armitage & I.A. Bonnell, 2002, MNRAS, 330, L11-L14
[25] ‘Magnetic activity in accretion disc boundary layers’P.J. Armitage, 2002, MNRAS, 330, 895-900
[26] ‘Accretion during the merger of supermassive black holes’
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P.J. Armitage & P. Natarajan, 2002, ApJ, 567, L9-L12
[27] ‘Predictions for the frequency and orbital radii of massive extrasolar planets’P.J. Armitage, M. Livio, S.H. Lubow & J.E. Pringle, 2002, MNRAS, 334, 248-256
[28] ‘Astrometric signatures of self-gravitating protoplanetary discs’W.K.M. Rice, P.J. Armitage, M.R. Bate & I.A. Bonnell, 2003, MNRAS, 338, 227-232
[29] ‘A reduced e�ciency of terrestrial planet formation following giant planet migration’P.J. Armitage, 2003, ApJ, 582, L47-L50
[30] ‘The e↵ect of cooling on the global stability of self-gravitating protoplanetary discs’W.K.M. Rice, P.J. Armitage, M.R. Bate & I.A. Bonnell, 2003, MNRAS, 339, 1025-1030
[31] ‘The variability of accretion on to Schwarzschild black holes from turbulent magnetizeddiscs’P.J. Armitage & C.S. Reynolds, 2003, MNRAS, 341, 1041-1050
[32] ‘Constraints on a planetary origin for the gap in the protoplanetary disc of GM Aurigae’W.K.M. Rice, K. Wood, P.J. Armitage, B.A. Whitney & J.E. Bjorkman, 2003, MNRAS,342, 79-85
[33] ‘Dispersion in the lifetime and accretion rate of T Tauri discs’P.J. Armitage, C.J. Clarke & F. Palla, 2003, MNRAS, 342, 1139-1146
[34] ‘The spectroscopic signature of hot Jupiters in FU Orionis objects’C.J. Clarke & P.J. Armitage, 2003, MNRAS, 345, 691-695
[35] ‘On the formation time scale and core masses of gas giant planets’W.K.M. Rice & P.J. Armitage, 2003, ApJ, 598, L55-L58
[36] ‘Substellar companions and planetary mass objects from protostellar disc fragmentation’W.K.M. Rice, P.J. Armitage, I.A. Bonnell, M.R. Bate, S.V. Je↵ers & S.G. Vine, 2003,MNRAS, 346, L36-L40
[37] ‘Axisymmetric MHD simulations of the collapsar model for gamma-ray bursts’D. Proga, A.I. MacFadyen, P.J. Armitage & M.C. Begelman, 2003, ApJ, 599, L5-L8
[38] ‘Outward migration of extrasolar planets to large orbital radii’D. Veras & P.J. Armitage, 2004, MNRAS, 347, 613-624
[39] ‘Accelerated planetesimal growth in self-gravitating protoplanetary discs’W.K.M. Rice, G. Lodato, J.E. Pringle, P.J. Armitage & I.A. Bonnell, 2004, MNRAS, 2004,355, 543-552
[40] ‘The dynamics of two planets on inclined orbits’D. Veras & P.J. Armitage, 2004, Icarus, 172, 349-371
[41] ‘The influence of massive planet scattering on nascent terrestrial planets’D. Veras & P.J. Armitage, 2005, ApJ, 620, L111-L114
[42] ‘Quantifying orbital migration from exoplanet statistics and host metallicities’W.K.M. Rice & P.J. Armitage, 2005, ApJ, 630, 1107-1113
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[43] ‘Investigating fragmentation conditions in self-gravitating accretion discs’W.K.M. Rice, G. Lodato & P.J. Armitage, 2005, MNRAS, 364, L56-L60
[44] ‘Eccentricity of supermassive black hole binaries coalescing from gas-rich mergers’P.J. Armitage & P. Natarajan, 2005, ApJ, 634, 921-927
[45] ‘Flares in long and short gamma-ray bursts: a common origin in a hyperaccretingaccretion disk’R. Perna, P.J. Armitage & B. Zhang, 2006, ApJ, 636, L29-L32
[46] ‘The stellar mass-accretion rate relation in T Tauri stars and brown dwarfs’R.D. Alexander & P.J. Armitage, 2006, ApJ, 639, L83-L86
[47] ‘Predictions for the correlation between giant and terrestrial extrasolar planets in dy-namically evolved systems’D. Veras & P.J. Armitage, 2006, ApJ, 645, 1509-1515
[48] ‘Planetesimal formation via fragmentation in self-gravitating protoplanetary discs’W.K.M. Rice, G. Lodato, J.E. Pringle, P.J. Armitage & I.A. Bonnell, 2006, MNRAS, 372,L9-L13
[49] ‘Dust filtration at gap edges: implications for the spectral energy distributions of discswith embedded planets’W.K.M. Rice, P.J. Armitage, K. Wood & G. Lodato, 2006, MNRAS, 373, 1619-1623
[50] ’Constraints on the stellar mass function from stellar dynamics at the Galactic Center‘R.D. Alexander, M.C. Begelman & P.J. Armitage, 2007, ApJ, 654, 907-914
[51] ‘Dust dynamics during protoplanetary disc clearing’R.D. Alexander & P.J. Armitage, 2007, MNRAS, 375, 500-512
[52] ‘Extrasolar planetary dynamics with a generalized planar Laplace-Lagrange secular the-ory’D. Veras & P.J. Armitage, 2007, ApJ, 661, 1311-1322
[53] ‘Massive planet migration: Theoretical predictions and comparison with observations’P.J. Armitage, 2007, ApJ, 665, 1381-1390
[54] ‘Why are there so few hot Jupiters?’W.K.M. Rice, P.J. Armitage & D.F. Hogg, MNRAS, 2008, 384, 1242-1248
[55] ‘Self-gravitating fragmentation of eccentric accretion disks’R.D. Alexander, P.J. Armitage, J. Cuadra & M.C. Begelman, ApJ, 2008, 674, 927-935
[56] ‘Quasistars: Accreting black holes inside massive envelopes’M.C. Begelman, E.M. Rossi & P.J. Armitage, MNRAS, 2008, 387, 1649-1659
[57] ‘Interaction of the magnetorotational instability with hydrodynamic turbulence in ac-cretion disks’J. Workman & P.J. Armitage, ApJ, 2008, 685, 406-417
[58] ‘Stellar dynamical evidence against a cold disc origin for stars in the Galactic Centre’
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J. Cuadra, P.J. Armitage & R.D. Alexander, MNRAS, 2008, 388, L64-L68
[59] ‘Binary formation and mass function variations in fragmenting discs with short coolingtimes’R.D. Alexander,P.J. Armitage & J. Cuadra, MNRAS, 2008, 389, 1655-1664
[60] ‘Microphysical dissipation, turbulence and magnetic fields in hyper-accreting discs’E.M. Rossi, P.J. Armitage & K. Menou, MNRAS, 2008, 391, 922-934
[61] ‘Extrasolar Planet Eccentricities from Scattering in the Presence of Residual Gas Disks’N. Moeckel, S.N. Raymond & P.J. Armitage, ApJ, 2008, 688, 1361-1367
[62] ‘Mean motion resonances from planet-planet scattering’S.N. Raymond, R. Barnes, P.J. Armitage & N. Gorelick, ApJ, 2008, 687, L107-L110
[63] ‘Massive black hole binary mergers within sub-pc scale gas discs’J. Cuadra, P.J. Armitage, R.D. Alexander & M.C. Begelman, MNRAS, 2009, 393, 1423-1432
[64] ‘Planet-planet scattering leads to tightly packed planetary systems’S.N. Raymond, R. Barnes, D. Veras, P.J. Armitage, N. Gorelick, & R. Greenberg, ApJ, 2009,696, L98-L101
[65] ‘Time-dependent models of the structure and stability of self-gravitating protoplanetarydiscs’W.K.M. Rice, & P.J. Armitage, MNRAS, 2009, 396, 2228-2236
[66] ‘Planet-planet scattering in planetesimal disks’S.N. Raymond, P.J. Armitage, & N. Gorelick, ApJ, 2009, 699, L88-L92
[67] ‘Giant planet migration, disk evolution, and the nature of transitional disks’R.D. Alexander, & P.J. Armitage, ApJ, 2009, 709, 989-1001
[68] ‘Black hole mergers: the first light’E.M. Rossi, G. Lodato, P.J. Armitage, J.E. Pringle, & A.R. King, MNRAS, 2010, 401,2021-2035
[69] ‘Planet-planet scattering in planetesimal disks. II. Predictions for outer extrasolar plan-etary systems’S.N. Raymond, P.J. Armitage & N. Gorelick, ApJ, 2010, 711, 772-795
[70] ‘The role of disc self-gravity in the formation of protostars and protostellar discs’W.K.M. Rice, J.H. Mayo, & P.J. Armitage, MNRAS, 2010, 402, 1740-1749
[71] ‘Connections between local and global turbulence in accretion disks’K.A. Sorathia, C.S. Reynolds, & P.J. Armitage, ApJ, 2010, 712, 1241-1247
[72] ‘Particle transport in evolving protoplanetary disks: Implications for results from Star-
dust’ A.L.H. Hughes, & P.J. Armitage, ApJ, 2010, 719, 1633-1653
[73] ’Debris disks as signposts of terrestrial planet formation’S.N. Raymond, P.J. Armitage, A. Moro-Martın, M. Booth, M.C. Wyatt, J.C. Armstrong,A.M. Mandell, F. Selsis, & A.A. West, A&A, 2011, 530, A62 (23 pages)
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[74] ‘Turbulence in global simulations of magnetized thin accretion discs’K. Beckwith, P.J. Armitage & J.B. Simon, 2011, MNRAS, 416, 361-382
[75] ‘Stability of self-gravitating discs under irradiation’W.K.M. Rice, P.J. Armitage, G.R. Mamatsashvili, G. Lodato & C.J. Clarke, 2011, MNRAS,418, 1356-1362
[76] ‘Turbulent Linewidths in Protoplanetary Disks: Predictions from Numerical Simulations’J.B. Simon, P.J. Armitage & K. Beckwith, 2011, ApJ, 743, article id. 17 (9 pages)
[77] ‘Hydrodynamic outcomes of planet scattering in transitional discs’N. Moeckel & P.J. Armitage, 2012, MNRAS, 419, 366-376
[78] ‘The butterfly e↵ect in the extreme mass ratio inspiral problem’P. Amaro-Seoane, P. Brem, J. Cuadra & P.J. Armitage, 2012, ApJL, 744, article id. L20 (6pages)
[79] ‘Convergence of SPH simulations of self-gravitating accretion discs’W.K.M. Rice, D.H. Forgan & P.J. Armitage, 2012, MNRAS, 420, 1640-1647
[80] ‘Debris disks as signposts of terrestrial planet formation. II. Dependence of exoplanetarchitectures on giant planet and disk properties’S.N. Raymond, P.J. Armitage, A. Moro-Martın, M. Booth, M.C. Wyatt, J.C. Armstrong,A.M. Mandell, F. Selsis, & A.A. West, 2012, A&A, 541, id A11 (25 pages)
[81] ‘Emergent mesoscale phenomena in magnetized accretion disc turbulence’J.B. Simon, K. Beckwith & P.J. Armitage, 2012, MNRAS, 422, 2685-2700
[82] ‘Global variation of the dust-to-gas ratio in evolving protoplanetary discs’A.L.H. Hughes & P.J. Armitage, 2012, MNRAS, 423, 389-405
[83] ‘Turbulent linewidths as a diagnostic of self-gravity in protostellar discs’D. Forgan, P.J. Armitage & J.B. Simon, 2012, MNRAS, 426, 2419-2426
[84] ‘Turbulence in the outer regions of protoplanetary disks. I. Weak accretion with novertical magnetic flux’J.B. Simon, X.-N. Bai, J.M. Stone, P.J. Armitage & K. Beckwith, 2013, 746, article id. 66
[85] ‘A limit on eccentricity growth from global 3D simulations of disc-planet interactions’A.C. Dunhill, R.D. Alexander & P.J. Armitage, 2013, MNRAS, 428, 3072-3082
[86] ‘Mini-Oort clouds: compact isotropic planetesimal clouds from planet-planet scattering’S.N. Raymond & P.J. Armitage, 2013, MNRAS, 429, L99-L103
[87] ‘The interplay between X-ray photoevaporation and planet formation’G.P. Rosotti, B. Ercolano, J.E. Owen & P.J. Armitage, 2013, MNRAS, 430, 1392
[88] ‘Turbulence in the outer regions of protoplanetary disks. II. Strong accretion driven bya vertical magnetic field’J.B. Simon, X.-N. Bai, P.J. Armitage, J.M. Stone & K. Beckwith, 2013, ApJ, 775, article id.73
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[89] ‘Formation of circumbinary planets in a dead zone’R.G. Martin, P.J. Armitage & R.D. Alexander, 2013, ApJ, 773, article id. 74
[90] ‘Two timescale dispersal of magnetized protoplanetary disks’P.J. Armitage, J.B. Simon & R.G. Martin, 2013, ApJL, 778, article id. L14
[91] ‘Convergence of simulations of self-gravitating accretion discs II. Sensitivity to the im-plementation of radiative cooling and artificial viscosity’W.K.M. Rice, S.-J. Paardekooper, D.H. Forgan & P.J. Armitage, 2014, MNRAS, 438, 1593
[92] ‘A mechanism for hysteresis in black hole binary state transitions’M.C. Begelman & P.J. Armitage, 2014, ApJL, 782, article id. L18
[93] ‘E�ciency of particle trapping in the outer regions of protoplanetary disks’J.B. Simon & P.J. Armitage, 2014, ApJ, 784, article id. 15
[94] ‘Distinguishing an ejected blob from alternative flare models at the Galactic centre withGRAVITY’F.H. Vincent, T. Paumard, G. Perrin, P. Varniere, F. Casse, F. Eisenhauer, S. Gillessen &P.J. Armitage, 2014, MNRAS, 441, 3477
[95] ‘Giant outbursts in Be/X-ray binaries’R.G. Martin, C. Nixon, P.J. Armitage, S.H. Lubow & D.J. Price, 2014, ApJL, 790, articleid. L34
[96] ‘The Kozai-Lidov mechanism in hydrodynamical disks’R.G. Martin, C. Nixon, S.H. Lubow, P.J. Armitage, D.J. Price, S. Dogan & A. King, 2014,ApJL, 792, article id. L33
[97] ‘Importance of thermal di↵usion in the gravo-magnetic limit cycle’J.E. Owen & P.J. Armitage, 2014, MNRAS, 445, 2800
[98] ‘Signatures of MRI-driven turbulence in protoplanetary disks: Predictions for ALMAobservations’J.B. Simon, A.M. Hughes, K.M. Flaherty, X.-N. Bai, P.J. Armitage, 2015, ApJ, 808, articleid. 180
[99] ‘Accretion disk dynamo as the trigger for X-ray binary state transitions’M.C. Begelman, P.J. Armitage, C.S. Reynolds, 2015, ApJ, 809, article id. 118
[100] ‘Accretion kinematics through the warped transition disk in HD142527 from resolvedCO(6-5) observations’S. Casassus, et al. (13 authors including P.J. Armitage), 2015, ApJ, 811, article id. 92
[101] ‘Magnetically driven accretion in protoplanetary discs’J.B. Simon, G. Lesur, M.W. Kunz, P.J. Armitage, 2015, MNRAS, 454, 1117
[102] ‘Post-periapsis pancakes: sustenance for self-gravity in tidal disruption events’E.R. Coughlin, C. Nixon, M.C. Begelman, P.J. Armitage, D.J. Price, 2016, MNRAS, 455,3612
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[in press] ‘Accretion disc dynamo activity in local simulations spanning weak-to-strong netvertical magnetic flux regimes’G. Salvesen, J.B. Simon, P.J. Armitage, M.C. Begelman, MNRAS, in press
[submitted] ‘On the structure of tidally disrupted stellar debris streams’E.R. Coughlin, C. Nixon, M.C. Begelman, P.J. Armitage, MNRAS, submitted
[submitted] ‘The initial mass and size distribution of planetesimals I. The e↵ect of resolution,gravity and initial conditions in streaming instability calculations’J.B. Simon, P.J. Armitage, R. Li, A.N. Youdin, ApJ, submitted
Unrefereed publications
[1] ‘Dynamo driven accretion discs and dwarf nova eruptions’P.J. Armitage, M. Livio, M. & J.E. Pringle, 1996, in Cataclysmic variables and relatedobjects. Astrophysics and Space Science Library; Proceedings of the 158th colloquium of theInternational Astronomical Union (IAU); Dordrecht: Kluwer Academic Publishers; editedby A. Evans and Janet H. Wood, p.107-108
[2] ‘Magnetospheric accretion in T Tauri stars’P.J. Armitage, 1997, in Accretion Phenomena and Related Outflows; IAU Colloquium 163.ASP Conference Series; Vol. 121; editors D.T. Wickramasinghe; G.V. Bicknell; and L.Ferrario, p.515-519
[3] ‘The stream-disk interaction’P.J. Armitage, 1998, in Wild Stars In The OldWest: Proceedings of the 13th North AmericanWorkshop on Cataclysmic Variables and Related Objects. ASP Conference Series, Vol. 137,editors S. Howell, E. Kuulkers, and C. Woodward, p.294-301
[4] ‘Spiral waves and periodic accretion in intermediate polars’J.R. Murray, P.J. Armitage, L. Ferrario & D.T. Wickramasinghe, 1999, in Annapolis Work-shop on Magnetic Cataclysmic Variables, ASP Conference Series, Volume 157, edited byCoel Hellier and Koji Mukai, p.25-32
[5] ‘Tidal instability of accretion disks’J. Murray, P.J. Armitage, B. Warner & D. Wickramasinghe, 1999, in Disk Instabilities inClose Binary Systems. 25 Years of the Disk-Instability Model. Edited by S. Mineshige andJ.C. Wheeler. Frontiers Science Series No. 26. Universal Academy Press, Inc., p.83-90
[6] ‘Disc dispersal around young stars’P.J. Armitage, 1999, in Astrophysical Discs - An EC Summer School, Astronomical Societyof the Pacific, Conference series Vol 160, Edited by J.A. Sellwood and Jeremy Goodman,p.176-185
[7] ‘Protoplanetary disc evolution in magnetically layered disc models’P.J. Armitage, 2000, in Planetary Systems in the Universe - Observation, Formation andEvolution, International Astronomical Union Symposium No. 202. Edited by A. Penny,
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P. Artymowicz, A.-M. Lagrange and S. Russell. Astronomical Society of the Pacific (SanFrancisco), p.319-321
[8] ‘Magnetohydrodynamic simulations of black hole accretion’C.S. Reynolds, P.J. Armitage & J. Chiang, 2001, in 20th Texas Symposium on relativisticastrophysics, American Institute of Physics, AIP conference proceedings, Vol. 586. Editedby J. Craig Wheeler and Hugo Martel, p.668-673
[9] ‘Ab initio simulations of accretion disc boundary layers’P.J. Armitage, 2002, in The Physics of Cataclysmic Variables and Related Objects, ASPConference Proceedings, Vol. 261. Edited by B. T. Gansicke, K. Beuermann, and K. Reinsch.San Francisco: Astronomical Society of the Pacific, p.425-432
[10] ‘Orbital migration and the brown dwarf desert’P.J. Armitage & I.A. Bonnell, 2003, in Brown Dwarfs, Proceedings of IAU Symposium 211,Edited by Eduardo Martn. San Francisco: Astronomical Society of the Pacific, p.31-34
[11] ‘On the stability of self-gravitating protoplanetary discs’W.K.M. Rice, P.J. Armitage, I.A. Bonnell & M.R. Bate, 2003, in Proceedings of the Con-ference on Towards Other Earths: DARWIN/TPF and the Search for Extrasolar TerrestrialPlanets. Edited by M. Fridlund, T. Henning, compiled by H. Lacoste. ESA SP-539, Noord-wijk, Netherlands: ESA Publications Division, p.555-560
[12] ‘Theory of disk accretion onto supermassive black holes’P.J. Armitage, 2004, in Supermassive Black Holes in the Distant Universe. Edited by Amy J.Barger. Astrophysics and Space Science Library Volume 308. Published by Kluwer AcademicPublishers, Dordrecht, The Netherlands, p.89-126
[13] ‘MHD simulations of the collapsar model for GRBs’D. Proga, A.I. MacFadyen, P.J. Armitage & M.C. Begelman, 2004, in Gamma-Ray Bursts:30 Years of Discovery: Gamma-Ray Burst Symposium. AIP Conference Proceedings, Vol.727. Edited by E.E. Fenimore and M. Galassi. Melville, NY: American Institute of Physics,p.384-387
[14] ‘Planet-building on the grandest scales’W.K.M. Rice & P.J. Armitage, 2004, semi-popular article in Mercury magazine, Vol. 33 No.2. Astronomical Society of the Pacific, p.24-30
[15] ‘Planetesimal dynamics in self-gravitating protoplanetary discs’G. Lodato, W.K.M. Rice, J.E. Pringle, P.J. Armitage & I.A. Bonnell, 2005, in Memorie dellaSocieta Astronomica Italiana, v.76, p.325-330
[16] ‘Spiral shocks in astrophysical disks’W.K.M. Rice, G. Lodato & P.J. Armitage, 2005, in The physics of collisionless shocks: 4thAnnual IGPP International Astrophysics Conference. AIP Conference Proceedings, Volume781, p.325-330
[17] ‘Planetary migration’
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P.J. Armitage & W.K.M. Rice, in A Decade of Extrasolar Planets around Normal StarsProceedings of the Space Telescope Science Institute Symposium, held in Baltimore, Mary-land May 2-5, 2005. Edited by Mario Livio, Kailash Sahu and Je↵ Valenti, Space TelescopeScience Institute Symposium Series (No. 19), pp.66-83
[18] ‘Vertical structure of hyper-accreting disks and consequences for gamma-ray burst out-flows’E.M. Rossi, P.J. Armitage & T. di Matteo, 2007, Astrophysics and Space Science, 311, 185
[19] ‘Stars in the making’P.J. Armitage, perspective for Science, 2008, 321, 1047
[20] ‘Planet formation’P.J. Armitage, 2009, AIP Conference Proceedings, Volume 1192, pp. 3-42
[21] ‘Protoplanetary disks and hard X-ray’E.D. Feigelson, P.J. Armitage, & K.V. Getman, 2010, Highlights of Astronomy, 15, 744
[22] ‘The debris disk - terrestrial planet connection’,S.N. Raymond, P.J. Armitage, A. Moro-Martn, M. Booth, M.C. Wyatt, J.C. Armstrong,A.M. Mandell, F. Selsis, 2011, IAU Symposium, Volume 276, 82
[23] ‘A trap for planet formation’P.J. Armitage, perspective for Science, 2013, 340, 1179
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