Dany Page

PUBLICATIONS


My Private Library on the ADS

Long Review Articles

[F] Neutron Stars - Cooling and Transport
A. Y. Potekhin, J. A. Pons, & D. Page
Space Science Reviews 191, p. 239-291 (2015

[E] Stellar Superfluids
D. Page, J. M. Lattimer, M.Prakash, & A. W. Steiner
in "Novel Superfluids", vol 2, Ed. K. H. Bennemann and J. B. Ketterson, International Series of Monographs on Physics - 157, (Oxford Science Publications), p. 505-579 (2014).

[D] Transport and Thermal Properties of the Neutron Star Inner Crust
D. Page & S. Reddy
in ``Neutron Stars Crust'', Ed. C. A. Bertulani & J. Piekarewicz (Nova Publishers), p. 281-308 (2012).

[C] Neutron Star Cooling: I.
D. Page
in ``Neutron Stars and Pulsars'', Ed. W. Becker, Astrophysics and Space Library, vol. 357, p. 247-288 (2008).

[B] Dense Matter in Compact Stars: Theoretical Developments and Observational Constraints
D. Page & S. Reddy
Annu. Rev. Nucl. & Part. Sci. 56, p. 327-374 (2006).

[A] The Cooling of Compact Stars
D. Page, U. Geppert & F. Weber
Nucl. Phys. A 777, p. 497-530 (2006). Special issue on Nuclear Astrophysics.
Nuclear Physics A award:
Top 10 Most Cited Article
2006-2010

Short Review Articles

[E] Cooling of Accretion-Heated Neutron Stars
R. Wijnands, N. Degenaar, & D. Page
in Journal of Astrophysics and Astronomy, Volume 38, Issue 3, article id.49, 16 pp (2017).

[D] Pairing and the Cooling of Neutron Stars
D. Page
in "50 Years of Nuclear BCS", Ed. R. A. Broglia & V. Zelevinsky (World Scientific), p. 324-337 (2013).

[C] Superfluid Neutrons in the Core of the Neutron Star in Cassiopeia A
D. Page, M. Prakash, J. M. Lattimer, & A. W. Steiner
in Proceedings of the XXXIV edition of the Brazilian Workshop on Nuclear Physics.

[B] Thermal Evolution of Isolated Neutron Stars. II
D. Page
in "Neutron Stars and Pulsars: thirty years after the discovery", Eds N. Shibazaki, N. Kawai, S. Shibata & T. Kifune (Universal Academy Press), p. 183-190 (1998).

[A] Thermal Evolution of Isolated Neutron Stars
D. Page
in "The Many Faces of Neutron Stars", Eds A. Alpar, R. Buccheri, & J. van Paradijs (Kluwer Academic Publishers), p. 539-552 (1998).


Public Code

[A] NSCool: Neutron star cooling code
D. Page
Astrophysics Source Code Library, record ascl:1609.009.


Articles in Refereed Journals

[60] Constraining the properties of dense neutron star cores: the case of the low-mass X-ray binary HETE J1900.1-2455
N. Degenaar, D. Page, J. van den Eijnden, M. V. Beznogov, R. Wijnands, & M. Reynolds, M.
M.N.R.A.S. 508, p. 882-894 (2021).

[59] NS 1987A in SN 1987A
D. Page, M. V. Beznogov, I. Garibay, J. M. Lattimer, M. Prakash, & H.-T. Janka
Ap. J. 898, id. 125, 15 pp. (2020).
Stories about this paper.

[58] Unexpected late-time temperature increase observed in the two neutron star crust-cooling sources XTE J1701-462 and EXO 0748-676
A. S. Parikh, R. Wijnands, J. Homan, N. Degenaar, B. Wolvers, L. S. Ootes, & D. Page
A&A 638, id. L2, 5 pp. (2020).

[57] The effect of diffusive nuclear burning in neutron star envelopes on cooling in accreting systems
M. J. P Wijngaarden, W. C. Ho, P. Chang, D. Page, R. Wijnands, L. S. Ootes, A. Cumming, N. Degenaar, & M. Beznogov.
M.N.R.A.S. 493, p. 4936-4944 (2020).

[56] Thermal Evolution of Neo-neutron Stars. I. Envelopes, Eddington Luminosity Phase, and Implications for GW170817
M. V. Beznogov, D. Page, & E. Ramirez-Ruiz.
Ap. J. 888, id. 97, 11 pp. (2020).

[55] Crust cooling of the neutron star in Aql X-1: Different depth and magnitude of shallow heating during similar accretion outbursts
N. Degenaar, L. S. Ootes, D. Page, R. Wijnands, A. S. Parikh, J. Homan, E. M. Cackett, J. M. Miller, D. Altamirano, & M. Linares.
M.N.R.A.S. 488, p. 4477-4486 (2019).

[54] Continued cooling of the accretion-heated neutron star crust in the X-ray transient IGR J17480-2446 located in the globular cluster Terzan 5
L. S. Ootes, S. Vats, D. Page, R. Wijnands, A. S. Parikh, N. Degenaar, M. J. P. Wijngaarden, D. Altamirano, A. Bahramian, E. M. Cackett, C. O. Heinke, J. Homan, & J. M. Miller.
M.N.R.A.S. 487, p. 1447-1461 (2019).

[53] Consistent accretion-induced heating of the neutron-star crust in MXB 1659-29 during two different outbursts
A. S. Parikh, R. Wijnands, L. S. Ootes, D. Page, N. Degenaar, A. Bahramian, E. F. Brown, E. M. Cackett, A. Cumming, C. Heinke, and 3 coauthors.
A&A 624, id. A84, 9 pp. (2019).

[52] Multiwavelength Observations of MASTER OT 075353.88+174907.6: A Likely Superoutburst of a Long Period Dwarf Nova System
A. S. Parikh, J. V. Hernandez Santisteban, R. Wijnands, & D. Page.
Revista Mexicana de Astronomia y Astrofisica 55, p. 55-63 (2019).

[51] Diffusive nuclear burning in cooling simulations and application to new temperature data of the Cassiopeia A neutron star
M. J. P. Wijngaarden, W. C. G Ho, Ph. Chang, C. O. Heinke, D. Page, M. Beznogov, & D. Patnaude.
M.N.R.A.S. 484, p. 974-988 (2019).

[50] Constraints on axion-like particles and nucleon pairing in dense matter from the hot neutron star in HESS J1731-347
M. V. Beznogov, E. Rrapaj, D. Page, & S. Reddy.
Phys. Rev. C 98, id. 035802 (2018).

[49] A cooling neutron star crust after recurrent outbursts: modelling the accretion outburst history of Aql X-1
L. Ootes, R. Wijnands, D. Page, & N. Degenaar.
M.N.R.A.S. 477, p. 2540-2556 (2018).

[48] A luminous X-ray outburst from an intermediate-mass black hole in an off-centre star cluster
D. Lin, J. Strader, E. R. Carrasco, D. Page, A. J. Romanowsky, J. Homan, J. A. Irwin, R. A. Remillard, O. Godet, N. A. Webb, H. Baumgardt, R. Wijnands, D. Barret, P.-A. Duc, J. P. Brodie, & S. D. J. Gwyn.
Nature Astronomy 2, p. 656-661 (2018).

[47] The quiescent state of the neutron-star X-ray transient GRS 1747-312 in the globular cluster Terzan 6
S. Vats, R. Wijnands, A. S. Parikh, L. Ootes, N. Degenaar, & D. Page.
M.N.R.A.S. 477, p. 2494-2502 (2018).

[46] Rapid Neutrino Cooling in the Neutron Star MXB 1659-291
E. F. Brown, A. Cumming, F. Fattoyev, C. J. Horowitz, D. Page, & S. Reddy.
Phys. Rev. Lett. 120, id.182701 (2018).
Comment about this paper: "A Rapidly Cooling Neutron Star" from Physics Viewpoint (American Physical Society).

[45] Further constraints on neutron star crustal properties in the low-mass X-ray binary 1RXS J180408.9-342058
A. S. Parikh, R. Wijnands, N. Degenaar, L. Ootes, & D. Page.
M.N.R.A.S. 476, p. 2230-2237 (2018).

[44] Constraining superfluidity in dense matter from the cooling of isolated neutron stars
S. Beloin, S. Han, A. W. Steiner, & D. Page.
Phys. Rev. C 97, id. 015804 (2018).

[43] Different Accretion Heating of the Neutron Star Crust during Multiple Outbursts in MAXI J0556-332
A. S. Parikh, J. Homan, R. Wijnands, L. Ootes, D. Page, D. Altamirano, N. Degenaar, E. F. Brown, E. Cackett, A. Cumming, A. Deibel, J. K. Fridriksson, D. Lin, M. Linares, & J. M. Miller.
Ap. J. Lett. 851, L28 (2017).

[42] Potential cooling of an accretion-heated neutron star crust in the low-mass X-ray binary 1RXS J180408.9-342058
A. S. Parikh, R. Wijnands, N. Degenaar, L. S. Ootes, D. Page, D. Altamirano, E. M. Cackett, A. T. Deller, N. Gusinskaia, J. W. T. Hessels, J. Homan, M. Linares, J. M. Miller, J. C. Miller-Jones, & C. A. James.
M.N.R.A.S. 466, p. 4074-4082 (2017).

[41] A lower limit on the heat capacity of the neutron star core
A. Cumming, E. F. Brown, F. J. Fattoyev, C. J. Horowitz, D. Page, & S. Reddy.
Phys. Rev. C 95, id. 025806 (2017).
Selected as an "Editor's Suggestion"

[40] A cold neutron star in the transient low-mass X-ray binary HETE J1900.1-2455 after 10 years of active accretion
N. Degenaar, L. S. Ootes, M. T. Reynolds, R. Wijnands, & D. Page.
M.N.R.A.S. Let. 465, p. L10-L14 (2017).

[39] The thermal state of KS 1731-260 after 14.5 years in quiescence
R. L. Merritt, E. Cackett, E. F. Brown, D. Page, A. Cumming, N. Degenaar, A. Deibel, J. Homan, J. M. Miller, & R. Wijnands.
Ap. J. 833, id 188, 7 p. (2016).

[38] Neutron star crust cooling in KS 1731-260: the influence of accretion outburst variability on the crustal temperature
L. Ootes, D. Page, R. Wijnands, & N. Degenaar.
M.N.R.A.S. 461, p. 4400-4405 (2016).

[37] A strong shallow heat source in the accreting neutron star MAXI J0556-332
A. Deibel, A. Cumming, E. F. Brown, & D. Page
Ap. J. Lett. 809, L31 (2015).

[36] VAMOS: A pathfinder for the HAWC gamma-ray observatory
Abeysekara,  and 135 co-autors.
Astroparticle Physics 62, 125-133 (2015).

[35] Forecasting Neutron Star Temperatures: Predictability and Variability
D. Page & S. Reddy
Phys. Rev. Lett. 111, id.241102 (2013).

[34] Hypercritical Accretion onto a Newborn Neutron Star and Magnetic Field Submergence
G. Bernal, D. Page & W. H. Lee
Ap.J. 770, p. 106 (2013).

[33] Low-energy collective excitations in the neutron star inner crust
N. Chamel, D. Page, & S. Reddy
Phys. Rev. C 87, id. 035803 (2013).

[32] Testing the deep-crustal heating model using quiescent neutron-star very-faint X-ray transients and the possibility of hybrid crusts in accreting neutron stars
R. Wijnands, N. Degenaar, & D. Page
M.N.R.A.S. 432, p. 2366-2377 (2013).

[31] Rapid Cooling of the Neutron Star in Cassiopeia A Triggered by Neutron Superfluidity in Dense Matter
D. Page, M. Prakash, J. M. Lattimer, & A. W. Steiner
Phys. Rev. Lett. 106, id.081101 (2011).
Stories about this paper.

[30] Thermalization Time and Specific Heat of the Neutron Stars Crust
M. Fortin, F. Grill, J. Margueron, D. Page, & N. Sandulescu
Phys. Rev. C 82, id. 065804 (2010).

[29] Hypercritical Accretion onto a Magnetized Neutron Star Surface: a Numerical Approach
G. Bernal, W. H. Lee, & D.Page
Revista Mexicana de Astronomia y Astrofisica 46, p. 309-322 (2010).

[28] Neutrino Emission from Cooper Pairs and Minimal Cooling of Neutron Stars
D. Page, J. M. Lattimer, M. Prakash, & A. W. Steiner
Ap.J. 707, p. 1131-1140 (2009).

[27] Temperature Distribution in Magnetized Neutron Star Crusts. II. The Effect of a Strong Toroidal Component
U. Geppert, M. Kueker & D. Page
A&A 457, p.937-948 (2006).

[26] Long Type I X-ray Bursts and Neutron Star Interior Physics
A. Cumming, J. Macbeth, J. M. M. in't Zand & D. Page
Ap.J. 646, p. 429-452 (2006).

[25] Bremsstrahlung Neutrinos from Electron-Electron Scattering in a Relativistic Degenerate Electron Plasma
P. Jaikumar, C. Gale & D. Page
Phys. Rev. D 72. p. 123004 (2005).

[24] Superbursts from Strange Stars
D. Page & A. Cumming
Ap. J. Lett. 635, p. L157-160 (2005).

[23] Dynamical Evolution of Neutrino-Cooled Accretion Disks: Detailed Microphysics, Lepton-Driven Convection, and Global Energetic
W. H. Lee, E. Ramirez-Ruiz & D. Page
Ap.J. 632, p. 421-437 (2005).

[22] Temperature Distribution in Magnetized Neutron Star Crusts
U. Geppert, M. Kueker & D. Page
A&A 426, p. 267-277 (2004).

[21] Minimal Cooling of Neutron Stars: A New Paradigm
D. Page, J. M. Lattimer, M. Prakash & A. W. Steiner
Ap. J. Suppl. 155, p. 623-650 (2004).

[20] Bremsstrahlung Photons from the Bare Surface of a Strange Quark Star
P. Jaikumar, C. Gale, D. Page & M. Prakash
Phys. Rev. D70, p. 023004 (1-13) (2004).

[19] Opaque or Transparent? A Link between Neutrino Optical Depths and the Characteristic Duration of Short Gamma-Ray Bursts
W. H. Lee, E. Ramirez-Ruiz & D. Page
Ap. J. Lett. 608, p. 5-8 (2004).

[18] Thermal Evolution and Light Curves of Young Bare Strange Stars
D. Page & V. V. Usov
Phys. Rev. Lett. 89, p. 131101 (2002).
Comment about this paper : "Casting a Strange Glow" @ the FOCUS site of Physical Review.

[17] Charting the Temperature of the Hot Neutron Star in a Soft X-ray Transient
M. Colpi, U. Geppert, D. Page & A. Possenti
Ap. J. Lett. 548, p. 175-178 (2001).

[16] Prospects of Detecting Baryon and Quark Superfluidity from Cooling Neutron Stars
D. Page, M. Prakash, J. M. Lattimer & A. Steiner
Phys. Rev. Lett. 85, p. 2048-2051 (2000).

[15] General Relativistic Treatment of the Thermal, Magnetic and Rotational Evolution of Neutron Stars with Crustal Magnetic Fields
D. Page, U.Geppert & T. Zannias
A&A, 360, p. 1052 - 1066 (2000).

[14] Period Clustering of the Anomalous X-ray Pulsars and Magnetic Field Decay in Magnetars
M. Colpi, U. Geppert & D. Page
Ap. J. Lett. 529, p. L29 (2000).

[13] Magnetic Field Decay in Neutron Stars. The Role of General Relativistic Effects
U. Geppert, D. Page & T. Zannias
Phys. Rev. D61, p. 3004-3016 (2000).

[12] Submergence and re-Diffusion of the Neutron Star Magnetic Field after the Supernova
U. Geppert, D. Page & T. Zannias
A&A, 345, p. 847 (1999).

[11] Fast Cooling of Neutron Stars: Superfluidity vs. Heating and Accreted Envelope
D. Page
Ap. J. Lett. 479, p. L43 (1997).

[10] Surface Temperature of a Magnetized Neutron Star and Interpretation of the ROSAT Data. II
D. Page & A. Sarmiento
Ap. J. 473, p. 1067 (1996).

[9] Magnetic and Spin History of Very Young Pulsars
A. Muslimov & D. Page
Ap. J. 458, p. 347 (1996).

[8] Geminga's Soft X-ray Emission and the Structure of it's Surface
D. Page, Yu. A. Shibanov & V. E. Zavlin
Ap. J. Lett. 451, p. L21 (1995).

[7] Surface Temperature of a Magnetized Neutron Star and Interpretation of the ROSAT Data. I. Dipolar Fields
D. Page
Ap. J. 442, p. 273 (1995).

[6] Delayed Switch-on of Pulsars
A. Muslimov & D. Page
Ap. J. Lett. 440, p. L77 (1995).

[5] Geminga: a Cooling Superfluid Neutron Star
D. Page
Ap. J. 428, p. 250 (1994).

[4] The Cooling of Neutron Stars by the Direct Urca Process
D. Page & J. H. Applegate
Ap. J. Lett. 394, p. L17 (1992).

[3] Strangeness Condensation, Nucleon Superfluidity and Cooling of Neutron Stars
D. Page & E. Baron
Ap. J. Lett. 354, p. L17 (1990).

[2] Strangeness Condensation and Cooling of Neutron Stars
G. E. Brown, K. Kubodera, D. Page & P. Pizzochero
Phys. Rev. D37, p. 2042 (1988).

[1] Contribution of Light Quarks to the Deconfinement Phase Transition in QCD
D. P. Page & M. Socolovsky
Phys. Rev. D31, p. 923 (1985).


Articles in Refereed Conference Proceedings

[7] Thermalization Time of the Hot Neutron Star Crust
J. Margueron, M. fortin, F. Grill, D. Page, & N. Sandulescu
J. of Physics, Conf. Series, 321, 1 p. 012031 (2011.

[6] RX J1856.5-3754 as a Possible Strange Star Candidate
J. A. Henderson & D. Page
Ap&SS, 308, p. 513 (2007).

[5] Cooling of Neutron Stars with Strong Toroidal Magnetic Fields
D. Page, U. Geppert & M. Kueker
Ap&SS, 308, p. 403 (2007).

[4] Distinguishing Bare Quark Stars from Neutron Stars
P. Jaikumar, C. Gale, D. Page & M. Prakash
Int. J. Mod. Phys. A 19, p. 5335-5342 (2004).

[3] Observability of Neutron Stars with Quarks
M. Prakash, J. M. Lattimer, A. W. Steiner & D. Page
Nucl. Phys. A 715, p. 835-838 (2003).

[2] Neutron Stars: a Probe for High Density Baryon Pairing
D. Page
Rev. Mex. Fis. 41 Supl. 1, p. 178 (1995).

[1] Thermal Radiation from Magnetized Neutron Stars: a Look at the Surface of a Neutron Star
D. Page
Sp. Sc. Rev. 74, p. 437 (1995).


Articles in Unrefereed Conference Proceedings

[11] Superfluidity and Superconductivity in the Neutron Star Core
D. Page
in "Electromagnetic Radiation from Pulsars and Magnetars", ASP Conference Series, Vol. XXX, Eds W. Lewandowski, J. Kijak, & O. Maron, p. 161 (2012).

[10] Thermal Evolution of Isolated Neutron Stars: Pairing, Pairing, and Pairing
D. Page
in "BULK NUCLEAR PROPERTIES: 5th ANL/MSU/JINA/INT FRIB Workshop", AIP Conference Proceedings, Volume 1128, pp. 195-205 (2009).

[9] The Minimal Cooling of Neutron Stars
D. Page
in "Compact Stars: the Quest for New States of Dense Matter", Eds D.K. Hong, C.-H. Lee, H.K. Lee, D.-P. Min, T.-S. Park & M. Rho (World Scientific), p. 449-463 (2004).

[8] Neutron Star Cooling in Transiently Accreting Low Mass Binaries: a New Tool for Probing Nuclear Matter
A. Possenti, M. Colpi, D. Page, & U. Geppert
in "Evolution of Binary and Multiple Stars". Eds. Ph. Podsiadlowski, S. Rappaport, A. R. King, F. D'Antona & L. Burderi. ASP Conf. Series (2001).

[7] Magneto-Rotational and Thermal Evolution of Magnetars with Crustal Magnetic Fields
U. Geppert, D. Page, M. Colpi & T. Zannias
in "Pulsar Astronomy: 2000 and Beyond", IAU Coll 177. Eds. M. Kramer, N. Wex & R. Wielebinski. ASP Conf. Series, 202, p. 681-689 (2000).

[6] Do Supernovae Make of Kill Pulsars ?
D. Page, U. Geppert & T. Zannias
in Neutron Stars and Supernova Remnants. Eds. F. Pacini et al., published by Memorie Societa Astronomica Italiana, 69, n. 4 (1998).

[5] Delayed Switch-on of the Vela Pulsar ?
A. Muslimov & D. Page
in "Pulsar Timing, General Relativity and the Internal Structure of Neutron Stars". Eds. Z. Arzoumanian, F. van der Hooft & E.P.J.van den Heuvel, Koninklijke Nederlandse Akademie van Wetenschappen Verhandelingen, Afd. Natuudkunde, Eerste Reeks, deel 50, p. 195 (1999).

[4] Surface Temperature of Magnetized Neutron Stars
D. Page & A. Sarmiento
in "Roetgenstrahlung from the Universe", Eds. H. U. Zimmermann, J. E. Truemper & H. Yorke, MPE Report 263, p. 171 (1996).

[3] Temperature, Distance and Cooling of the Vela Pulsar
D. Page, Yu. A. Shibanov & V. E. Zavlin
in "Roetgenstrahlung from the Universe", Eds. H. U. Zimmermann, J. E. Truemper & H. Yorke MPE Report 263, p. 173 (1996).

[2] The GEMINGA Neutron Star: Evidence for Nucleon Superfluidity at Very High Density
D. Page
in "High Energy Phenomonology", eds R. Huerta y M. A. Perez (World Scientific, Singapore), p. 347-356 (1992).

[1] Strange Stars: Which is the Ground State of QCD at Finite Baryon Number ?
D. Page
in "High Energy Phenomonology", eds R. Huerta y M. A. Perez (World Scientific, Singapore), p. 347-356 (1992).


Book Edition

[III]  Isolated Neutron Stars: from the Surface to the Interior
Eds. S. Zane, R. Turolla, & D. Page
[Springer Verlag]
Proceedings of the meeting "Isolated Neutron Stars: from the Surface to the Interior", London, April 24-28, 2006.

[II] From the Sun to the Great Attractor: 1999 Guanajuato Lectures on Astrophysics
Eds. D. Page & J. G. Hirsch
[Springer Verlag, Lecture Notes in Physics, vol. 556] 2000
Proceedings of the ``Mexican School of Astrophysics - 1999'', Guanajuato, Mexico, August 4 - 11, 1999.

[I] Nuclear and Particle Astrophysics
Eds. J. G. Hirsch & D. Page
[Cambridge University Press, Cambridge Contemporary Astrophysics series] 1998.
Proceedings of the ``Mexican School on Nuclear Astrophysics'', Guanajuato, Mexico, August 13 - 20, 1997
Back to the Neutron Star (Theory) Group Home-Page.
Dany P. Page / page@astro.unam.mx
(Created: 3-VI-1994. Last modified 10-VI-2019)