Cooling of Accretion-Heated Neutron Stars

We present a brief, observational review about the study of the cooling behaviour of accretion-heated neutron stars and the inferences about the neutron-star crust and core that have been obtained from these studies. Accretion of matter during outbursts can heat the crust out of thermal equilibrium with the core and after the accretion episodes are over, the crust will cool down until crust-core equilibrium is restored. We discuss the observed properties of the crust cooling sources and what has been learned about the physics of neutron-star crusts. We also briefly discuss those systems that have been observed long after their outbursts were over, i.e, during times when the crust and core are expected to be in thermal equilibrium. The surface temperature is then a direct probe for the core temperature. By comparing the expected temperatures based on estimates of the accretion history of the targets with the observed ones, the physics of neutron-star cores can be investigated. Finally, we discuss similar studies performed for strongly magnetized neutron stars in which the magnetic field might play an important role in the heating and cooling of the neutron stars.

[1]  R. Wijnands,et al.  The soft quiescent spectrum of the transiently accreting 11 Hz X-ray pulsar in the globular cluster Terzan 5 , 2011, 1101.0842.

[2]  L. Bildsten,et al.  Pulsations Detected from Accreting High-Mass X-Ray Binaries at Low Luminosities , 2007 .

[3]  E. Cackett,et al.  UvA-DARE ( Digital Academic Repository ) A Change in the Quiescent X-Ray Spectrum of the Neutron Star Low-mass X-Ray Binary MXB 1659-29 , 2013 .

[4]  M. Colpi,et al.  Aquila X-1 from Outburst to Quiescence: The Onset of the Propeller Effect and Signs of a Turned-on Rotation-powered Pulsar , 1998, astro-ph/9803303.

[5]  S. Reddy,et al.  THERMAL AND TRANSPORT PROPERTIES OF THE NEUTRON STAR INNER CRUST , 2012, 1201.5602.

[6]  Warsaw,et al.  Neutron star cooling after deep crustal heating in the X-ray transient KS 1731–260 , 2007, 0708.0086.

[7]  R. Wijnands,et al.  Chandra Observations of the Accretion-driven Millisecond X-Ray Pulsars XTE J0929–314 and XTE J1751–305 in Quiescence , 2004, astro-ph/0406057.

[8]  K. Wood,et al.  Chandra and Swift observations of the quasi-persistent neutron star transient EXO 0748−676 back to quiescence , 2008, 0811.4582.

[9]  R. Wijnands,et al.  Strong X-ray variability in the quiescent state of the neutron star low-mass X-ray binary EXO 1745-248 , 2011, 1108.1211.

[10]  E. Cackett,et al.  X-Ray Variability during the Quiescent State of the Neutron Star X-Ray Transient in the Globular Cluster NGC 6440 , 2004, astro-ph/0407448.

[11]  Chandra observations of the millisecond X-ray pulsar IGR J00291+5934 in quiescence , 2005, astro-ph/0505120.

[12]  S. Ç. Inam,et al.  Timing and X‐ray spectral features of Swift J1626.6−5156 , 2011, 1101.5168.

[13]  Optical and X-ray observations of the neutron star soft X-ray transient XTE J1709–267 , 2004, astro-ph/0406208.

[14]  W. Ho,et al.  Neutron star atmosphere composition: the quiescent, low‐mass X‐ray binary in the globular cluster M28 , 2012, 1203.5807.

[15]  R. Wijnands,et al.  Evidence for crust cooling in the transiently accreting 11-Hz X-ray pulsar in the globular cluster Terzan 5 , 2011, 1107.5317.

[16]  W. Ho,et al.  Constraining the physics of the r-mode instability in neutron stars with X-ray and ultraviolet observations , 2012, 1201.2101.

[17]  R. Wijnands,et al.  Monitoring Chandra Observations of the Quasi-persistent Neutron Star X-Ray Transient MXB 1659–29 in Quiescence: The Cooling Curve of the Heated Neutron Star Crust , 2003, astro-ph/0310612.

[18]  R. Wijnands,et al.  A Chandra Observation of the Globular Cluster Terzan 1: The Neutron Star X-Ray Transient X1732–304 in Quiescence , 2001, astro-ph/0111337.

[19]  L. Stella,et al.  XMM-Newton Observations of IGR J00291+5934: Signs of a Thermal Spectral Component during Quiescence , 2008, 0810.4804.

[20]  C. Heinke,et al.  THE DISCOVERY OF A VERY FAINT X-RAY TRANSIENT IN THE GLOBULAR CLUSTER M15 , 2008, 0810.3909.

[21]  E. Gotthelf,et al.  X-Ray Observations and Infrared Identification of the Transient 7.8 s X-Ray Binary Pulsar XTE J1829–098 , 2007, 0707.2935.

[22]  E. Cackett,et al.  Quiescent X-ray variability from the neutron star transient Aql X-1 , 2011, 1102.5016.

[23]  P. Jonker,et al.  The distance and internal composition of the neutron star in EXO 0748-676 with XMM-Newton , 2010, 1007.0647.

[24]  S. Reddy,et al.  Forecasting neutron star temperatures: predictability and variability. , 2013, Physical review letters.

[25]  Submitted to ApJ Letters , 2002 .

[26]  Katsuhiko Sato Nuclear Compositions in the Inner Crust of Neutron Stars , 1979 .

[27]  R. Wijnands,et al.  TWO NEW BURSTING NEUTRON STAR LOW-MASS X-RAY BINARIES: SWIFT J185003.2–005627 AND SWIFT J1922.7–1716 , 2012, 1208.2966.

[28]  Quiescent Thermal Emission from the Neutron Star in Aquila X-1 , 2001, astro-ph/0105319.

[29]  L. Bildsten,et al.  The Thermal X-Ray Spectra of Centaurus X-4, Aquila X-1 , and 4U 1608-522 in Quiescence , 1998, astro-ph/9810288.

[30]  University of Leicester,et al.  XMM-Newton observation of the bursting pulsar GRO J1744-28 in quiescence , 2002 .

[31]  D. Eichler,et al.  Diagnosing Magnetars with Transient Cooling , 2002, astro-ph/0211110.

[32]  The endpoint of the rp-process on accreting neutron stars , 2001, astro-ph/0102418.

[33]  Robert E. Rutledge,et al.  Variable Thermal Emission from Aquila X-1 in Quiescence , 2002, astro-ph/0204196.

[34]  P. Reig Be/X-ray binaries , 2011, 1101.5036.

[35]  G. Nelemans,et al.  The neutron star soft X-ray transient 1H 1905+000 in quiescence * , 2006, astro-ph/0602625.

[36]  M. Colpi,et al.  Charting the Temperature of the Hot Neutron Star in a Soft X-Ray Transient , 2000, astro-ph/0010572.

[37]  J. Tomsick,et al.  CHANDRA LOCALIZATIONS AND SPECTRA OF INTEGRAL SOURCES IN THE GALACTIC PLANE: THE CYCLE 9 SAMPLE , 2009, 0906.2577.

[38]  R. Rutledge,et al.  Time-variable emission from transiently accreting neutron stars in quiescence due to deep crustal heating , 2001, astro-ph/0101141.

[39]  A. Markowitz,et al.  OBSERVATIONS OF THE HIGH-MASS X-RAY BINARY A 0535+26 IN QUIESCENCE , 2013, 1304.7283.

[40]  S. Bhattacharyya A new interesting source in Chandra field: a pulsar wind nebula? , 2008, 0809.4962.

[41]  V. Mangano,et al.  X-ray eclipse time delays in 4U 2129+47 , 2007, 0709.4366.

[42]  J. Miller,et al.  An X-ray-UV correlation in Cen X-4 during quiescence , 2012, 1210.4510.

[43]  M. Servillat,et al.  DISCOVERY OF A SECOND TRANSIENT LOW-MASS X-RAY BINARY IN THE GLOBULAR CLUSTER NGC 6440 , 2009, 0911.0444.

[44]  G. Bignami,et al.  Exosat and Einstein observations of the X-ray pulsar 4U 1145 619 , 1985 .

[45]  R. Taam,et al.  FURTHER CONSTRAINTS ON THERMAL QUIESCENT X-RAY EMISSION FROM SAX J1808.4-3658 , 2008, 0810.0497.

[46]  L. Bildsten,et al.  The Quiescent X-Ray Spectrum of the Neutron Star in Centaurus X-4 Observed with Chandra/ACIS-S , 2000, astro-ph/0012400.

[47]  R. Wijnands,et al.  An XMM-Newton observation of the neutron star X-ray transient 2S 1803-245 in quiescence , 2007, 0707.0995.

[48]  A. Cumming,et al.  MAPPING CRUSTAL HEATING WITH THE COOLING LIGHT CURVES OF QUASI-PERSISTENT TRANSIENTS , 2009, 0901.3115.

[49]  R. Wijnands,et al.  Testing the deep-crustal heating model using quiescent neutron-star very-faint X-ray transients and the possibility of partially accreted crusts in accreting neutron stars , 2012, 1208.4273.

[50]  F. Baganoff,et al.  The X-Ray Binary GRS 1741.9–2853 in Outburst and Quiescence , 2003, astro-ph/0307179.

[51]  R. Wijnands,et al.  The Hard Quiescent Spectrum of the Neutron Star X-Ray Transient EXO 1745–248 in the Globular Cluster Terzan 5 , 2003, astro-ph/0310144.

[52]  M. Colpi,et al.  The Transient X-Ray Pulsar 4U 0115+63 from Quiescence to Outburst through the Centrifugal Transition , 2001, astro-ph/0107236.

[53]  P. G. Jonker,et al.  Constraints on Thermal X-Ray Radiation from SAX J1808.4–3658 and Implications for Neutron Star Neutrino Emission* , 2007 .

[54]  Nicholas E. White,et al.  The Discovery of 3.8 Hour Periodic Intensity Dips and Eclipses from the Transient Low-Mass X-Ray Binary EXO 0748-676 , 1986 .

[55]  V. Kaspi,et al.  POST-OUTBURST X-RAY FLUX AND TIMING EVOLUTION OF SWIFT J1822.3−1606 , 2012, 1204.1034.

[56]  M. Nowak,et al.  A FURTHER DROP INTO QUIESCENCE BY THE ECLIPSING NEUTRON STAR 4U 2129+47 , 2009, 0910.3951.

[57]  E. Cackett,et al.  CONTINUED COOLING OF THE CRUST IN THE NEUTRON STAR LOW-MASS X-RAY BINARY KS 1731−260 , 2010, 1008.4727.

[58]  Yasuo Tanaka,et al.  ASCA Observations of Transient X-Ray Sources in Quiescence , 1998 .

[59]  R. Wijnands,et al.  A Chandra Observation of the Long-Duration X-Ray Transient KS 1731–260 in Quiescence: Too Cold a Neutron Star? , 2001, astro-ph/0107380.

[60]  T. Belloni,et al.  Feeding compact objects , 2013 .

[61]  D. Ricci,et al.  The Discovery of Quiescent X-Ray Emission from SAX J1808.4–3658, the Transient 2.5 Millisecond Pulsar , 2000, astro-ph/0005429.

[62]  Evert Rol,et al.  GRB060602B = Swift J1749.4−2807: an unusual transiently accreting neutron-star X-ray binary , 2007, 0709.0061.

[63]  San Diego State University,et al.  The cooling of compact stars , 2005, astro-ph/0508056.

[64]  I. Iben,et al.  Thermal evolution of accreting neutron stars , 1984 .

[65]  U. California,et al.  Variability in the Thermal Emission from Accreting Neutron Star Transients , 2002, astro-ph/0204102.

[66]  S. Campana,et al.  LINKING BURST-ONLY X-RAY BINARY SOURCES TO FAINT X-RAY TRANSIENTS , 2009, 0905.0607.

[67]  C. Kouveliotou,et al.  THE OUTBURST DECAY OF THE LOW MAGNETIC FIELD MAGNETAR SGR 0418+5729 , 2013, 1303.5579.

[68]  L. Bildsten,et al.  A Method for Distinguishing between Transiently Accreting Neutron Stars and Black Holes, in Quiescence , 1999, astro-ph/9909319.

[69]  L. Keek,et al.  MILLIHERTZ QUASI-PERIODIC OSCILLATIONS AND THERMONUCLEAR BURSTS FROM TERZAN 5: A SHOWCASE OF BURNING REGIMES , 2011, 1111.3978.

[70]  A Chandra X-ray observation of the globular cluster Terzan 1 , 2005, astro-ph/0512168.

[71]  Michael R. Garcia X-ray emission from 4U 2129+47 (= V1727 Cygni) in quiescence , 1994 .

[72]  R. Wijnands,et al.  A low-level accretion flare during the quiescent state of the neutron-star X-ray transient SAX J1750.8-2900 , 2013, 1305.3091.

[73]  D. Gelino,et al.  The Low Quiescent X-Ray Luminosity of the Transient X-Ray Burster EXO 1747–214 , 2005, astro-ph/0509109.

[74]  K. Mitsuda,et al.  ASCA Observations of Soft X-Ray Transients in Quiescence : X1608-52 and CEN X-4 , 1996 .

[75]  R. Wijnands,et al.  The accretion-heated crust of the transiently accreting 11-Hz X-ray pulsar in the globular cluster Terzan 5 , 2011, 1103.1640.

[76]  E. Cackett,et al.  CONTINUED NEUTRON STAR CRUST COOLING OF THE 11 Hz X-RAY PULSAR IN TERZAN 5: A CHALLENGE TO HEATING AND COOLING MODELS? , 2013, 1306.2345.

[77]  A. Parmar,et al.  XMM-Newton observations of the low-mass X-ray binary EXO 0748-676 in quiescence , 2011, 1102.2640.

[78]  F. Bernardini,et al.  Daily multiwavelength Swift monitoring of the neutron star low-mass X-ray binary Cen X-4: evidence for accretion and reprocessing during quiescence , 2013, 1307.2492.

[79]  L. Bildsten,et al.  Crustal Heating and Quiescent Emission from Transiently Accreting Neutron Stars , 1998, astro-ph/9807179.

[80]  R. Wijnands,et al.  A Chandra Observation of GRO J1744–28: The Bursting Pulsar in Quiescence , 2002, astro-ph/0201293.

[81]  E. Cackett,et al.  RAPID COOLING OF THE NEUTRON STAR IN THE QUIESCENT SUPER-EDDINGTON TRANSIENT XTE J1701−462 , 2009, 1003.3460.

[82]  P. G. Jonker,et al.  Chandra observations of the neutron star soft X-ray transient RX J170930.2 - 263927 returning to quiescence , 2003, astro-ph/0301475.

[83]  P. Haensel,et al.  Models of crustal heating in accreting neutron stars , 2007, 0708.3996.

[84]  J. Tomsick,et al.  XMM-NEWTON FINDS THAT SAX J1750.8−2900 MAY HARBOR THE HOTTEST, MOST LUMINOUS KNOWN NEUTRON STAR , 2012, 1202.1531.

[85]  B. Paul,et al.  X-ray properties of the transient pulsar 3A 0535+262 in quiescence , 2004 .

[86]  M. Colpi,et al.  An XMM-Newton Study of the 401 Hz Accreting Pulsar SAX J1808.4–3658 in Quiescence , 2002, astro-ph/0206376.

[87]  R. Wijnands,et al.  The faint neutron star soft X-ray transient SAX J1810.8-2609 in quiescence , 2003, astro-ph/0311560.

[88]  S. Campana,et al.  The neutron stars of Soft X–ray Transients , 1993, astro-ph/9805079.

[89]  E. Cackett,et al.  THE VARIABLE QUIESCENT X-RAY EMISSION OF THE TRANSIENT NEUTRON STAR XTE J1701−462 , 2010, 1101.0081.

[90]  R. Wijnands,et al.  THE QUIESCENT X-RAY PROPERTIES OF THE ACCRETING MILLISECOND X-RAY PULSAR AND ECLIPSING BINARY SWIFT J1749.4–2807 , 2012, 1204.6059.

[91]  T. Maccarone,et al.  A four-year XMM-Newton/Chandra monitoring campaign of the Galactic centre: analysing the X-ray transients , 2012, 1204.6043.

[92]  L. Bildsten,et al.  Crustal emission and the quiescent spectrum of the neutron star in KS 1731-260 , 2001, astro-ph/0108125.

[93]  R. Wijnands,et al.  DISCOVERY OF THE THIRD TRANSIENT X-RAY BINARY IN THE GALACTIC GLOBULAR CLUSTER TERZAN 5 , 2013, 1311.4449.

[94]  D. Gelino,et al.  The Low Quiescent X-Ray Luminosity of the Neutron Star Transient XTE J2123–058 , 2004, astro-ph/0404287.

[95]  B. Paczyński,et al.  Thermal structure of accreting neutron stars and strange stars , 1990 .

[96]  W. Ho,et al.  MASS/RADIUS CONSTRAINTS ON THE QUIESCENT NEUTRON STAR IN M13 USING HYDROGEN AND HELIUM ATMOSPHERES , 2013, 1301.3768.

[97]  P. T. de Zeeuw,et al.  AGN Feedback Driven Molecular Outflow in NGC 1266 , 2012, Proceedings of the International Astronomical Union.

[98]  J. Greiner,et al.  Discovery of a Be/X-Ray Binary Consistent with the Position of GRO J2058+42 , 2004, astro-ph/0412527.

[99]  D. Steeghs,et al.  The Cold Neutron Star in the Soft X-Ray Transient 1H 1905+000 , 2007, 0706.3421.

[100]  R. Wijnands,et al.  A four-year baseline Swift study of enigmatic X-ray transients located near the Galactic center , 2010, 1007.0249.

[101]  J. Stephen,et al.  XMM–Newton observations of unidentified INTEGRAL/IBIS sources , 2010, 1006.1272.

[102]  E. Cackett,et al.  QUIESCENT X-RAY EMISSION FROM Cen X-4: A VARIABLE THERMAL COMPONENT , 2010, 1007.2823.

[103]  E. Cackett,et al.  Cooling of the Crust in the Neutron Star Low-Mass X-Ray Binary MXB 1659–29 , 2008, 0806.1166.

[104]  N. Gehrels,et al.  A NEW LOW MAGNETIC FIELD MAGNETAR: THE 2011 OUTBURST OF SWIFT J1822.3−1606 , 2012, 1203.6449.

[105]  Faint X-Ray Sources in the Globular Cluster Terzan 5 , 2006, astro-ph/0606253.

[106]  D. Steeghs,et al.  Optical and X-Ray Observations of IGR J00291+5934 in Quiescence , 2008 .

[107]  P. Jonker,et al.  The quasi‐persistent neutron star soft X‐ray transient 1M 1716−315 in quiescence , 2007, astro-ph/0703020.

[108]  M. Nowak,et al.  Hiding in Plain Sight: Chandra Observations of the Quiescent Neutron Star 4U 2129+47 in Eclipse , 2002, astro-ph/0204503.

[109]  S. Mereghetti,et al.  XMMU J174716.1-281048: a quasi-persistent very faint X-ray transient? , 2007, 0704.2134.

[110]  J. Bloom,et al.  Observations of the 599 Hz Accreting X-Ray Pulsar IGR J00291+5934 during the 2004 Outburst and in Quiescence , 2007, astro-ph/0701095.

[111]  A. Moretti,et al.  The Quiescent X-Ray Emission of Three Transient X-Ray Pulsars , 2002, astro-ph/0207422.

[112]  J. Tomsick,et al.  CONFIRMATION OF IGR J01363+6610 AS A Be X-RAY BINARY WITH VERY LOW QUIESCENT X-RAY LUMINOSITY , 2010, 1012.2817.

[113]  K. Long,et al.  Combined Chandra, XMM-Newton, and Hubble Space Telescope observations of the Galactic globular cluster NGC 2808 , 2008, 0808.2661.

[114]  N. Rea,et al.  MODELING MAGNETAR OUTBURSTS: FLUX ENHANCEMENTS AND THE CONNECTION WITH SHORT BURSTS AND GLITCHES , 2012, 1203.4506.

[115]  Robert S. Warwick,et al.  Unusual X-ray transients in the Galactic Centre , 2004, astro-ph/0412236.

[116]  R. Wijnands,et al.  The behavior of subluminous X-ray transients near the Galactic center as observed using the X-ray telescope aboard Swift , 2008, 0807.3458.

[117]  K. Wood,et al.  Further X‐ray observations of EXO 0748−676 in quiescence: evidence for a cooling neutron star crust , 2010, 1007.0247.

[118]  A CHANDRA OBSERVATION OF THE NEUTRON STAR X-RAY TRANSIENT AND ECLIPSING BINARY MXB 1659-29 IN QUIESCENCE , 2002, astro-ph/0207094.