TYC 4018-3227-1 , the SIMBAD biblio

TYC 4018-3227-1 , the SIMBAD biblio (40 results) C.D.S. - SIMBAD4 rel 1.8 - 2024.04.24CEST20:50:50

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Bibcode/DOI Score in Title|Abstract|
Keywords 		in a table in teXt, Caption, ... Nb occurence Nb objects in ref Citations
(from ADS) 		Title First 3 Authors
1995ApJ...455L.151H 38   K                 4 32 Discovery of a candidate isolated neutron star in a new supernova remnant near CTB 1. HAILEY C.J. and CRAIG W.W.
1996A&ARv...7..209C 19 44 Radio-silent isolated neutron stars as a new astronomical reality. CARAVEO P.A., BIGNAMI G.F. and TRUMPER J.E.
1997A&A...323..415P 9 8 229 Internal temperatures and cooling of neutron stars with accreted envelopes. POTEKHIN A.Y., CHABRIER G. and YAKOVLEV D.G.
1997ApJ...476L..43V 1 11 42 A cooling neutron star in supernova remnant G296.5+10.0. VASHISHT G., KULKARNI S.R., ANDERSON S.B., et al.
1997ApJ...477L..99C 1 7 23 Cooling neutron stars with accreted envelopes. CHABRIER G., POTEKHIN A.Y. and YAKOVLEV D.G.
1997ApJ...479L..43P 14 20 Fast cooling of neutron stars: superfluidity versus heating and accreted envelope. PAGE D.
1997ApJ...488..307C 12 17 ROSAT observations of the supernova remnant CTB 1. CRAIG W.W., HAILEY C.J. and PISARSKI R.L.
1998A&A...331..821Z 2 12 73 The neutron star in the supernova remnant PKS 1209-52. ZAVLIN V.E., PAVLOV G.G. and TRUEMPER J.
1998A&A...335..596S 7 16 Neutron superfluidity in strongly magnetic interiors of neutron stars and its effect on thermal evolution. SCHAAB C., WEBER F. and WEIGEL M.K.
1998A&A...335..969Y 1 5 19 The effect of interior magnetic field on the modified Urca process and the cooling of neutron stars. YUAN Y.F. and ZHANG J.L.
1999A&A...343..650Y 4 7 88 Neutrino emission due to Cooper pairing of nucleons in cooling neutron stars. YAKOVLEV D.G., KAMINKER A.D. and LEVENFISH K.P.
1999A&A...346..465S 28 30 Impact of internal heating on the thermal evolution of neutron stars. SCHAAB C., SEDRAKIAN A., WEBER F., et al.
1999ApJ...512L..59B 1 2 9 An upper limit on the power-law index of the radio spectrum of Geminga. BURDERI L., FAUCI F. and BORIAKOFF V.
1999ApJ...521..271L 9 25 Superfluid friction and late-time thermal evolution of neutron stars. LARSON M.B. and LINK B.
1999MNRAS.305..671B 24 59 The implications of radio-quiet neutron stars. BRAZIER K.T.S. and JOHNSTON S.
1999AstL...25..417L 7 7 A simple cooling model for neutron stars with superfluid cores: comparison with observations. LEVENFISH K.P., SHIBANOV Y.A. and YAKOVLEV D.G.
2001A&A...379L...5Y 8 21 1S0 neutron pairing vs. observations of cooling neutron stars. YAKOVLEV D.G., KAMINKER A.D. and GNEDIN O.Y.
2002A&A...383.1076K 2 8 66 Three types of cooling superfluid neutron stars: Theory and observations. KAMINKER A.D., YAKOVLEV D.G. and GNEDIN O.Y.
2002A&A...389L..24Y 1 10 37 The cooling neutron star in 3C 58. YAKOVLEV D.G., KAMINKER A.D., HAENSEL P., et al.
2002ApJ...571L.143T 1 19 63 Confronting neutron star cooling theories with new observations. TSURUTA S., TETER M.A., TAKATSUKA T., et al.
2003A&A...407..259Y 8 23 What we can learn from observations of cooling neutron stars. YAKOVLEV D.G. and HAENSEL P.
2004ApJ...612..398H 28 60 X-ray, radio, and optical observations of the putative pulsar in the supernova remnant CTA 1. HALPERN J.P., GOTTHELF E.V., CAMILO F., et al.
2004ApJS..155..623P 6 23 461 Minimal cooling of neutron stars: a new paradigm. PAGE D., LATTIMER J.M., PRAKASH M., et al.
2004Sci...304..536L 7 48 1058 The physics of neutron stars. LATTIMER J.M. and PRAKASH M.
2004SerAJ.168...55G 68 14 Observational data on galactic supernova remnants: II. The supernova remnants within l = 90 deg - 270 deg. GUSEINOV O.H., ANKAY A. and TAGIEVA S.O.
2005A&A...444..913G 12 23 Medium effects in cooling of neutron stars and the 3P2 neutron gap. GRIGORIAN H. and VOSKRESENSKY D.N.
2006ApJ...647..350L 1 31 64 Enhanced abundances in three large-diameter mixed-morphology supernova remnants. LAZENDIC J.S. and SLANE P.O.
2008MNRAS.384..225E 1680 T K A     X C F     42 16 3 Unveiling the nature of RXJ0002+6246 with XMM-Newton. ESPOSITO P., DE LUCA A., TIENGO A., et al.
2009ApJ...691..621T 243       D     X C F     5 42 18 Thermal evolution of hyperon-mixed neutron stars. TSURUTA S., SADINO J., KOBELSKI A., et al.
2009ApJ...696.1792E 38           X         1 23 2 Hard X-ray flux upper limits of central compact objects in supernova remnants. ERDEVE I., KALEMCI E. and ALPAR M.A.
2009ARep...53..472M 17 0 The pulsar J1852+0040 in Kes 79 and the nature of central compact objects in supernova remnants. MALOV I.F.
2009ApJ...707.1131P 155             C F     2 34 204 Neutrino emission from Cooper pairs and minimal cooling of neutron stars. PAGE D., LATTIMER J.M., PRAKASH M., et al.
2009RAA.....9.1351K 76             C       1 13 2 Cooling of hybrid stars with spin down compression. KANG M., WANG X.-D. and PAN N.-N.
2012A&A...548A..79A viz 15       D               1 5273 86 The first INTEGRAL-OMC catalogue of optically variable sources. ALFONSO-GARZON J., DOMINGO A., MAS-HESSE J.M., et al.
2013A&A...553A..12N viz 55       D     X         2 775 16 The XMM-Newton SSC survey of the Galactic plane. NEBOT GOMEZ-MORAN A., MOTCH C., BARCONS X., et al.
2014NewA...33....7K 79             C       1 29 ~ The influence of spin-down on thermal evolution of hybrid stars. KANG M. and WANG X.-D.
2019MNRAS.485.5394K 42           X         1 119 24 Stellar binaries that survive supernovae. KOCHANEK C.S., AUCHETTL K. and BELCZYNSKI K.
2020MNRAS.496.5052P 43           X         1 114 60 Thermal luminosities of cooling neutron stars. POTEKHIN A.Y., ZYUZIN D.A., YAKOVLEV D.G., et al.
2022MNRAS.513.1820K 90             C       1 12 ~ Thermal relaxation of dark matter admixed neutron star. KUMAR A., DAS H.C. and PATRA S.K.
2024MNRAS.527..803R 100           X         2 4 ~ The Galactic supernova remnant CTB 1: optical and X-ray emission analysis. REYES-ITURBIDE J., AMBROCIO-CRUZ P., SILVA R., et al.

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