 |
1 |
Abbott, B. et al. (LIGO Scientific Collaboration), “Upper limits on gravitational wave emission
from 78 radio pulsars”, Phys. Rev. D, 76(4), 042001, (2007). Related online version (cited on
2 October 2007):
 http://arXiv.org/abs/gr-qc/0702039.
|
|
2 |
Abbott, B. et al. (LIGO Scientific Collaboration), “Beating the Spin-Down Limit on
Gravitational Wave Emission from the Crab Pulsar”, Astrophys. J. Lett., 683, L45–L49, (2008).
Related online version (cited on 8 December 2008):
http://arXiv.org/abs/0805.4758.
|
|
3 |
Abrikosov, A.A., Gorkov, L.P., and Dzyaloshinski, I.E., Methods of Quantum Field Theory in
Statistical Physics, (Dover, New York, U.S.A., 1975), rev. edition.
|
|
4 |
Alford, M., Bowers, J.A., and Rajagopal, K., “Crystalline color superconductivity”, Phys. Rev.
D, 63(7), 074016, (2001). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/hep-ph/0008208.
|
|
5 |
Alpar, M.A., “Pinning and Threading of Quantized Vortices in the Pulsar Crust Superfluid”,
Astrophys. J., 213, 527–530, (1977).
|
|
6 |
Alpar, M.A., Chau, H.F., Cheng, K.S., and Pines, D., “Postglitch relaxation of the VELA pulsar
after its first eight large glitches: A reevaluation with the vortex creep model”, Astrophys. J.,
409, 345–359, (1993).
ADS: http://adsabs.harvard.edu/abs/1993ApJ...409..345A.
|
|
7 |
Alpar, M.A., Chau, H.F., Cheng, K.S., and Pines, D., “Postglitch Relaxation of the Crab Pulsar
after Its First Four Major Glitches: The Combined Effects of Crust Cracking, Formation of
Vortex Depletion Region and Vortex Creep”, Astrophys. J., 459, 706, (1996).
|
|
8 |
Alpar, M.A., Langer, S.A., and Sauls, J.A., “Rapid postglitch spin-up of the superfluid core in
pulsars”, Astrophys. J., 282, 533–541, (1984).
|
|
9 |
Alpar, M.A., Pines, D., Anderson, P.W., and Shaham, J., “Vortex creep and the internal
temperature of neutron stars. I. General theory”, Astrophys. J., 276, 325–334, (1984).
ADS: http://adsabs.harvard.edu/abs/1984ApJ...276..325A.
|
|
10 |
Anderson, P.W., and Itoh, N., “Pulsar glitches and restlessness as a hard superfluidity
phenomenon”, Nature, 256, 25–27, (1975).
|
|
11 |
Anderson, P.W., and Morel, P., “Generalized Bardeen-Cooper-Schrieffer States and the
Proposed Low-Temperature Phase of Liquid He3”, Phys. Rev., 123, 1911–1934, (1961).
|
|
12 |
Andersson, N., “Gravitational waves from instabilities in relativistic stars”, Class. Quantum
Grav., 20, R105–R144, (2003). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0211057.
|
|
13 |
Andersson, N., and Comer, G.L., “On the dynamics of superfluid neutron star cores”, Mon.
Not. R. Astron. Soc., 328, 1129–1143, (2001). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0101193.
|
|
14 |
Andersson, N., and Comer, G.L., “Probing Neutron-Star Superfluidity with Gravitational-Wave
Data”, Phys. Rev. Lett., 87, 241101, (2001). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/gr-qc/0110112.
|
|
15 |
Andersson, N., and Comer, G.L., “Relativistic Fluid Dynamics: Physics for Many Different
Scales”, Living Rev. Relativity, 10, lrr-2007-1, (2007). URL (cited on 2 October 2007):
http://www.livingreviews.org/lrr-2007-1.
|
|
16 |
Andersson, N., Comer, G.L., and Prix, R., “The superfluid two-stream instability”, Mon. Not.
R. Astron. Soc., 354, 101–110, (2004).
|
|
17 |
Andersson, N., and Kokkotas, K.D., “The R-Mode Instability in Rotating Neutron Stars”, Int.
J. Mod. Phys. D, 10, 381–441, (2001). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/gr-qc/0010102.
|
|
18 |
Andersson, N., Sidery, T., and Comer, G.L., “Mutual friction in superfluid neutron stars”,
Mon. Not. R. Astron. Soc., 368, 162–170, (2006). Related online version (cited on 2 October
2007):
http://arXiv.org/abs/astro-ph/0510057.
|
|
19 |
Andersson, N., Sidery, T., and Comer, G.L., “Superfluid neutron star turbulence”, Mon. Not.
R. Astron. Soc., 381, 747–756, (2007). Related online version (cited on 16 June 2008):
http://arXiv.org/abs/astro-ph/0703257.
|
|
20 |
Andreev, A.F., and Bashkin, E.P., “Three-velocity hydrodynamics of superfluid solutions”,
Sov. Phys. JETP, 42, 164–167, (1975).
|
|
21 |
Andronikashvili, E.L., “Direct observation of two types of motion in helium II”, Zh. Eksp. Teor.
Fiz., 16, 780–785, (1946).
|
|
22 |
Annett, J.F., Superconductivity, Superfluids and Condensates, Oxford Master Series in
Condensed Matter Physics, (Oxford University Press, Oxford, U.K.; New York, U.S.A., 2004).
|
|
23 |
Arnould, M., Goriely, S., and Takahashi, K., “The r-process of stellar nucleosynthesis:
Astrophysics and nuclear physics achievements and mysteries”, Phys. Rep., 450, 97–213,
(2007). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/0705.4512.
|
|
24 |
ATNF/CSIRO, “ATNF Pulsar Catalogue: Glitch parameters”, web interface to database. URL
(cited on 10 September 2007):
http://www.atnf.csiro.au/research/pulsar/psrcat/glitchTbl.html.
|
|
25 |
Audi, G., Wapstra, A.H., and Thibault, C., “The AME2003 atomic mass evaluation (II). Tables,
graphs and references”, Nucl. Phys. A, 729, 337–676, (2003).
ADS: http://adsabs.harvard.edu/abs/2003NuPhA.729..337A.
|
|
26 |
Australia Telescope National Facility, “ATNF pulsar database”, web interface to database.
URL (cited on 20 August 2007):
http://www.atnf.csiro.au/research/pulsar/psrcat/.
|
|
27 |
Avogadro, P., Barranco, F., Broglia, R.A., and Vigezzi, E., “Quantum calculation of vortices
in the inner crust of neutron stars”, Phys. Rev. C, 75, 012805, (2007). Related online version
(cited on 2 October 2007):
http://arXiv.org/abs/nucl-th/0602028.
|
|
28 |
Baldo, M., Lombardo, U., Saperstein, E.E., and Tolokonnikov, S.V., “The role of superfluidity
in the structure of the neutron star inner crust”, Nucl. Phys. A, 750, 409–424, (2005).
|
|
29 |
Baldo, M., Saperstein, E.E., and Tolokonnikov, S.V., “Superfluidity in nuclear and neutron
matter”, Nucl. Phys. A, 749, 42–52, (2005).
|
|
30 |
Baldo, M., Saperstein, E.E., and Tolokonnikov, S.V., “The role of the boundary conditions in
the Wigner Seitz approximation applied to the neutron star inner crust”, Nucl. Phys. A, 775,
235–244, (2006). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/nucl-th/0605010.
|
|
31 |
Baldo, M., Saperstein, E.E., and Tolokonnikov, S.V., “A realistic model of superfluidity in the
neutron star inner crust”, Eur. Phys. J. A, 32, 97–108, (2007). Related online version (cited
on 2 October 2007):
http://arXiv.org/abs/nucl-th/0609031.
|
|
32 |
Baldo, M., Saperstein, E.E., and Tolokonnikov, S.V., “Upper edge of the neutron star inner
crust: The drip point and its vicinity”, Phys. Rev. C, 76, 025803, (2007). Related online version
(cited on 16 June 2008):
http://arXiv.org/abs/nucl-th/0703099.
|
|
33 |
Balibar, S., “The Discovery of Superfluidity”, J. Low Temp. Phys., 146, 441–470, (2007).
|
|
34 |
Barat, C., Hayles, R.I., Hurley, K., Niel, M., Vedrenne, G., Desai, U., Kurt, V.G., Zenchenko,
V.M., and Estulin, I.V., “Fine time structure in the 1979 March 5 gamma ray burst”, Astron.
Astrophys., 126, 400–402, (1983).
|
|
35 |
Bardeen, J., “Critical Fields and Currents in Superconductors”, Rev. Mod. Phys., 34, 667–681,
(1962).
|
|
36 |
Bardeen, J., Cooper, L.N., and Schrieffer, J.R., “Theory of Superconductivity”, Phys. Rev.,
108, 1175–1204, (1957).
|
|
37 |
Barranco, F., Broglia, R.A., Esbensen, H., and Vigezzi, E., “Role of finite nuclei on the pairing
gap of the inner crust of neutron stars”, Phys. Lett. B, 390, 13–17, (1997).
|
|
38 |
Barranco, F., Broglia, R.A., Esbensen, H., and Vigezzi, E., “Semiclassical approximation to
neutron star superfluidity corrected for proximity effects”, Phys. Rev. C, 58, 1257–1262, (1998).
Related online version (cited on 2 October 2007):
http://arXiv.org/abs/nucl-th/9806056.
|
|
39 |
Baym, G., Bethe, H.A., and Pethick, C.J., “Neutron Star Matter”, Nucl. Phys. A, 175, 225–271,
(1971).
|
|
40 |
Baym, G., Pethick, C., Pines, D., and Ruderman, M., “Spin Up in Neutron Stars: The Future
of the Vela Pulsar”, Nature, 224, 872, (1969).
|
|
41 |
Baym, G., Pethick, C.J., and Pines, D., “Superfluidity in Neutron Stars”, Nature, 224, 673,
(1969).
|
|
42 |
Baym, G., Pethick, C.J., and Sutherland, P., “The Ground State of Matter at High Densities:
Equation of State and Stellar Models”, Astrophys. J., 170, 299–317, (1971).
|
|
43 |
Baym, G., and Pines, D., “Neutron starquakes and pulsar speedup.”, Ann. Phys. (N.Y.), 66,
816–835, (1971).
|
|
44 |
Beig, R., and Schmidt, B.G., “Relativistic elasticity”, Class. Quantum Grav., 20, 889–904,
(2003). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/gr-qc/0211054.
|
|
45 |
Bejger, M., Haensel, P., and Zdunik, J.L., “Rotation at 1122 Hz and the neutron star structure”,
Astron. Astrophys., 464, L49–L52, (2007). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0612216.
|
|
46 |
Belyaev, S.T., “Effect of pairing correlations on nuclear properties”, Mat.-Fys. Medd. K. Dan.
Vid. Selsk., 31(11), 1–55, (1959).
|
|
47 |
Bender, M., Heenen, P., and Reinhard, P., “Self-consistent mean-field models for nuclear
structure”, Rev. Mod. Phys., 75, 121–180, (2003).
|
|
48 |
Bildsten, L., and Epstein, R.I., “Superfluid dissipation time scales in neutron star crusts”,
Astrophys. J., 342, 951–957, (1989).
|
|
49 |
Bildsten, L., and Ushomirsky, G., “Viscous Boundary-Layer Damping of r-Modes in Neutron
Stars”, Astrophys. J., 529, L33–L36, (2000). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/9911155.
|
|
50 |
Bisnovatyi-Kogan, G.S., and Chechetkin, V.M., “Nonequilibrium envelopes of the neutron stars,
their role in the maintenance of X-ray luminosity and nucleosynthesis”, Usp. Fiz. Nauk, 127,
263–296, (1979).
|
|
51 |
Bohr, A., Mottelson, B.R., and Pines, D., “Possible Analogy between the Excitation Spectra
of Nuclei and Those of the Superconducting Metallic State”, Phys. Rev., 110, 936–938, (1958).
|
|
52 |
Bohr, N., and Wheeler, J.A., “The Mechanism of Nuclear Fission”, Phys. Rev., 56, 426–450,
(1939).
|
|
53 |
Bonazzola, S., Gourgoulhon, E., Salgado, M., and Marck, J.A., “Axisymmetric rotating
relativistic bodies: A new numerical approach for ‘exact’ solutions”, Astron. Astrophys., 278,
421–443, (1993).
|
|
54 |
Bonche, P., and Vautherin, D., “A mean-field calculation of the equation of state of supernova
matter.”, Nucl. Phys. A, 372, 496–526, (1981).
|
|
55 |
Bonche, P., and Vautherin, D., “Mean-field calculations of the equation of state of supernova
matter II”, Astron. Astrophys., 112, 268–272, (1982).
|
|
56 |
Botvina, A.S., and Mishustin, I.N., “Multifragmentation reactions and properties of stellar
matter at subnuclear densities”, Phys. Rev. C, 72, 048801, (2005). Related online version (cited
on 2 October 2007):
http://arXiv.org/abs/nucl-th/0506061.
|
|
57 |
Botvina, A.S., Mishustin, I.N., and Trautmann, W., “Properties of stellar matter in supernova
explosions and nuclear multifragmentation”, (2006). URL (cited on 2 October 2007):
http://arXiv.org/abs/nucl-th/0612055.
|
|
58 |
Brack, M., Guet, C., and Hakansson, H.-B., “Selfconsistent semiclassical description of average
nuclear properties-a link between microscopic and macroscopic models”, Phys. Rep., 123,
275–364, (1985).
|
|
59 |
Broglia, R.A., de Blasio, F., Lazzari, G., Lazzari, M., and Pizzochero, P.M., “Specific heat of
superfluid matter in the inner crust of neutron stars”, Phys. Rev. D, 50, 4781–4785, (1994).
|
|
60 |
Brown, E.F., Bildsten, L., and Rutledge, R.E., “Crustal Heating and Quiescent Emission from
Transiently Accreting Neutron Stars”, Astrophys. J. Lett., 504, L95, (1998). Related online
version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/9807179.
|
|
61 |
Buchler, J.-R., and Barkat, Z., “Properties of low-density neutron-star matter.”, Phys. Rev.
Lett., 27, 48–51, (1971).
|
|
62 |
Bulgac, A., and Magierski, P., “Quantum corrections to the ground state energy of
inhomogeneous neutron matter”, Nucl. Phys. A, 683, 695–712, (2001). Related online version
(cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0002377.
|
|
63 |
Burrows, A., and Lattimer, J.M., “On the accuracy of the single-nucleus approximation in the
equation of state of hot, dense matter”, Astrophys. J., 285, 294–303, (1984).
|
|
64 |
Bürvenich, T.J., Mishustin, I.N., and Greiner, W., “Nuclei embedded in an electron gas”,
Phys. Rev. C, 76, 034310, (2007). Related online version (cited on 16 June 2008):
http://arXiv.org/abs/0706.1450.
|
|
65 |
Caballero, O.L., Horowitz, C.J., and Berry, D.K., “Neutrino scattering in heterogeneous
supernova plasmas”, Phys. Rev. C, 74(6), 065801, (2006). Related online version (cited on 2
October 2007):
http://arXiv.org/abs/astro-ph/0607564.
|
|
66 |
Cackett, E.M., Wijnands, R., Linares, M., Miller, J.M., Homan, J., and Lewin, W.H.G.,
“Cooling of the quasi-persistent neutron star X-ray transients KS 1731-260 and MXB 1659-29”,
Mon. Not. R. Astron. Soc., 372, 479–488, (2006). Related online version (cited on 2 October
2007):
http://arXiv.org/abs/astro-ph/0605490.
|
|
67 |
California Institute of Technology, “LIGO Laboratory Home Page”, project homepage. URL
(cited on 20 August 2007):
http://www.ligo.caltech.edu/.
|
|
68 |
Campbell, L.J., “Rotational speedups accompanying angular deceleration of a superfluid”,
Phys. Rev. Lett., 43, 1336–1339, (1979).
|
|
69 |
Cao, L.G., Lombardo, U., and Schuck, P., “Screening effects in superfluid nuclear and neutron
matter within Brueckner theory”, Phys. Rev. C, 74(6), 064301, (2006). Related online version
(cited on 2 October 2007):
http://arXiv.org/abs/nucl-th/0608005.
|
|
70 |
Carter, B., “Covariant theory of conductivity in ideal fluid or solid media”, in Anile, A., and
Choquet-Bruhat, Y., eds., Relativistic Fluid Dynamics, Lectures given at the 1st 1987 Session
of the Centro Internazionale Matematico Estivo (C.I.M.E.) held at Noto, Italy, May 25 – June
3, 1987, Lecture Notes in Mathematics, vol. 1385, pp. 1–64, (Springer, Berlin, Germany; New
York, U.S.A., 1989).
|
|
71 |
Carter, B., “Relativistic dynamics of vortex defects in superfluids”, in Bunkov, Y.M., and
Godfrin, H., eds., Topological Defects and Non-Equilibrium Dynamics of Phase Transitions,
Proceedings of the Les Houches Winter School, 16 – 26 February 1999, NATO Science Series C,
vol. 549, pp. 267–302, (Kluwer Academic Publishers, Dordrecht, Netherlands; Boston, U.S.A.,
2000).
|
|
72 |
Carter, B., and Chachoua, E., “Newtonian Mechanics of Neutron Superfluid in Elastic Star
Crust”, Int. J. Mod. Phys. D, 15, 1329–1358, (2006). Related online version (cited on 2 October
2007):
http://arXiv.org/abs/astro-ph/0601658.
|
|
73 |
Carter, B., Chachoua, E., and Chamel, N., “Covariant Newtonian and relativistic dynamics
of (magneto)-elastic solid model for neutron star crust”, Gen. Relativ. Gravit., 38, 83–119,
(2006). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/gr-qc/0507006.
|
|
74 |
Carter, B., and Chamel, N., “Covariant Analysis of Newtonian Multi-Fluid Models for Neutron
Stars I: Milne-Cartan Structure and Variational Formulation”, Int. J. Mod. Phys. D, 13,
291–325, (2004). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0305186.
|
|
75 |
Carter, B., and Chamel, N., “Covariant Analysis of Newtonian Multi-Fluid Models for Neutron
Stars II: Stress-Energy Tensors and Virial Theorems”, Int. J. Mod. Phys. D, 14, 717–748,
(2005). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0312414.
|
|
76 |
Carter, B., and Chamel, N., “Covariant Analysis of Newtonian Multi-Fluid Models for Neutron
Stars III: Transvective, Viscous, and Superfluid Drag Dissipation”, Int. J. Mod. Phys. D, 14,
749–774, (2005). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0410660.
|
|
77 |
Carter, B., Chamel, N., and Haensel, P., “Effect of BCS pairing on entrainment in neutron
superfluid current in neutron star crust”, Nucl. Phys. A, 759, 441–464, (2005). Related online
version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0406228.
|
|
78 |
Carter, B., Chamel, N., and Haensel, P., “Entrainment coefficient and effective mass for
conduction neutrons in neutron star crust: simple microscopic models”, Nucl. Phys. A, 748,
675–697, (2005). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/nucl-th/0402057.
|
|
79 |
Carter, B., Chamel, N., and Haensel, P., “Entrainment Coefficient and Effective Mass for
Conduction Neutrons in Neutron Star Crust: Macroscopic Treatment”, Int. J. Mod. Phys. D,
15, 777–803, (2006). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0408083.
|
|
80 |
Carter, B., and Langlois, D., “Relativistic models for superconducting-superfluid mixtures”,
Nucl. Phys. B, 531, 478–504, (1998). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/gr-qc/9806024.
|
|
81 |
Carter, B., Langlois, D., and Sedrakian, D.M., “Centrifugal buoyancy as a mechanism for
neutron star glitches”, Astron. Astrophys., 361, 795–802, (2000). Related online version (cited
on 2 October 2007):
http://arXiv.org/abs/astro-ph/0004121.
|
|
82 |
Carter, B., and Quintana, H., “Foundations of General Relativistic High-Pressure Elasticity
Theory”, Proc. R. Soc. London, Ser. A, 331, 57–83, (1972).
|
|
83 |
Carter, B., and Quintana, H., “Relativistic formulation of the neutron starquake theory of
pulsar glitches”, Ann. Phys. (N.Y.), 95, 74–89, (1975).
|
|
84 |
Carter, B., and Quintana, H., “Stationary elastic rotational deformation of a relativistic neutron
star model”, Astrophys. J., 202, 511–522, (1975).
|
|
85 |
Carter, B., and Samuelsson, L., “Relativistic mechanics of neutron superfluid in
(magneto)elastic star crust”, Class. Quantum Grav., 23, 5367–5388, (2006). Related online
version (cited on 2 October 2007):
http://arXiv.org/abs/gr-qc/0605024.
|
|
86 |
Chabanat, E., Bonche, P., Haensel, P., Meyer, J., and Schaeffer, R., “A Skyrme parametrization
from subnuclear to neutron star densities”, Nucl. Phys. A, 627, 710–746, (1997).
|
|
87 |
Chabanat, E., Bonche, P., Haensel, P., Meyer, J., and Schaeffer, R., “Erratum to ‘A Skyrme
parametrization from subnuclear to neutron star densities. Part II. Nuclei far from stabilities’
[Nucl. Phys. A 635 (1998) 231–256]”, Nucl. Phys. A, 643, 441–441, (1998).
|
|
88 |
Chabanat, E., Bonche, P., Haensel, P., Meyer, J., and Schaeffer, R., “A Skyrme parametrization
from subnuclear to neutron star densities. Part II. Nuclei far from stabilities”, Nucl. Phys. A,
635, 231–256, (1998).
|
|
89 |
Chakrabarty, D., Morgan, E.H., Muno, M.P., Galloway, D.K., Wijnands, R., van der Klis, M.,
and Markwardt, C.B., “Nuclear-powered millisecond pulsars and the maximum spin frequency
of neutron stars”, Nature, 424, 42–44, (2003). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0307029.
|
|
90 |
Chamel, N., “Band structure effects for dripped neutrons in neutron star crust”, Nucl. Phys.
A, 747, 109–128, (2005). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/nucl-th/0405003.
|
|
91 |
Chamel, N., “Effective mass of free neutrons in neutron star crust”, Nucl. Phys. A, 773,
263–278, (2006). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/nucl-th/0512034.
|
|
92 |
Chamel, N., “Neutron Star Crust beyond the Wigner-Seitz Approximation”, in Lombardo, U.,
Baldo, M., Burgio, F., and Schulze, H.-J., eds., Exotic States of Nuclear Matter, Proceedings
of the International Symposium EXOCT07, Catania, Italy, June 11 – June 15, 2007, pp. 91–98,
(World Scientific, Singapore; Hackensack, U.S.A., 2008). Related online version (cited on 30
April 2008):
http://arXiv.org/abs/0709.3798.
|
|
93 |
Chamel, N., “Two-fluid models of superfluid neutron star cores”, Mon. Not. R. Astron. Soc.,
388, 737–752, (2008). Related online version (cited on 8 December 2008):
http://arXiv.org/abs/0805.1007.
|
|
94 |
Chamel, N., and Carter, B., “Effect of entrainment on stress and pulsar glitches in stratified
neutron star crust”, Mon. Not. R. Astron. Soc., 368, 796–808, (2006). Related online version
(cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0503044.
|
|
95 |
Chamel, N., and Haensel, P., “Entrainment parameters in a cold superfluid neutron star core”,
Phys. Rev. C, 73, 045802, (2006). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/nucl-th/0603018.
|
|
96 |
Chamel, N., Naimi, S., Khan, E., and Margueron, J., “Validity of the Wigner-Seitz
approximation in neutron star crust”, Phys. Rev. C, 75, 055806, (2007). Related online version
(cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0701851.
|
|
97 |
Cheng, K.S., Yao, C.C., and Dai, Z.G., “Properties of nuclei in the inner crusts of neutron
stars in the relativistic mean-field theory”, Phys. Rev. C, 55, 2092–2100, (1997).
|
|
98 |
Chiu, H.-Y., and Morrison, P., “Neutrino Emission from Black-Body Radiation at High Stellar
Temperatures”, Phys. Rev. Lett., 5, 573–575, (1960).
|
|
99 |
Chiu, H.-Y., and Stabler, R.C., “Emission of Photoneutrinos and Pair Annihilation Neutrinos
from Stars”, Phys. Rev., 122, 1317–1322, (1961).
|
|
100 |
Chugunov, A.I., and Haensel, P., “Thermal conductivity of ions in a neutron star envelope”,
Mon. Not. R. Astron. Soc., 381, 1143–1153, (2007). Related online version (cited on 12 June
2008):
http://arXiv.org/abs/0707.4614.
|
|
101 |
Chugunov, A.I., and Yakovlev, D.G., “Shear Viscosity and Oscillations of Neutron Star Crust”,
Astron. Rep., 49, 724–738, (2005). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0511300.
|
|
102 |
Colpi, M., Geppert, U., Page, D., and Possenti, A., “Charting the Temperature of the Hot
Neutron Star in a Soft X-Ray Transient”, Astrophys. J., 548, L175–L178, (2001). Related
online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0010572.
|
|
103 |
Combescot, R., “Ultracold Fermi Gases: The BEC-BCS Crossover”, J. Low Temp. Phys., 145,
267–276, (2006).
|
|
104 |
Cumming, A., Macbeth, J., in ’t Zand, J.J.M., and Page, D., “Long Type I X-Ray Bursts and
Neutron Star Interior Physics”, Astrophys. J., 646, 429–451, (2006). Related online version
(cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0508432.
|
|
105 |
Cutler, C., “Gravitational waves from neutron stars with large toroidal B fields”, Phys. Rev.
D, 66, 084025, (2002). Related online version (cited on 26 May 2008):
http://arXiv.org/abs/gr-qc/0206051.
|
|
106 |
Dall’Osso, S., Israel, G.L., Stella, L., Possenti, A., and Perozzi, E., “The Glitches of the
Anomalous X-Ray Pulsar 1RXS J170849.0-400910”, Astrophys. J., 599, 485–497, (2003).
|
|
107 |
de Blasio, F., Lazzari, G., Pizzochero, P.M., and Broglia, R.A., “Superfluidity and thermal
response of neutron star crusts”, Phys. Rev. D, 53, 4226–4231, (1996).
|
|
108 |
de Blasio, F.V., “Crustal impurities and the internal temperature of a neutron star crust”,
Mon. Not. R. Astron. Soc., 299, 118–122, (1998).
|
|
109 |
de Blasio, F.V., “A dense two-component plasma in a strong gravity field and thermal
conductivity of neutron stars”, Astron. Astrophys., 353, 1129–1133, (2000).
|
|
110 |
de Blasio, F.V., and Elgarøy, Ø., “Microscopic Structure of a Vortex Line in Superfluid Neutron
Star Matter”, Phys. Rev. Lett., 82, 1815–1818, (1999). Related online version (cited on 2
October 2007):
http://arXiv.org/abs/nucl-th/9808057.
|
|
111 |
de Blasio, F.V., Hjorth-Jensen, M., Elgarøy, Ø., Engvik, L., Lazzari, G., Baldo, M., and
Schulze, H.-J., “Coherence length of neutron superfluids”, Phys. Rev. C, 56, 2332–2335, (1997).
|
|
112 |
de Blasio, F.V., and Lazzari, G., “Unusual nuclear shapes and neutron specific heat of neutron
star crusts”, Phys. Rev. C, 52, 418–420, (1995).
|
|
113 |
de Blasio, F.V., and Lazzari, G., “Vibrations of slabs and cylindrical nuclei”, Phys. Lett. B,
384, 1–4, (1996).
|
|
114 |
de Gennes, P.G., Superconductivity of Metals and Alloys, (W.A. Benjamin, New York, U.S.A.,
1966).
|
|
115 |
de Gennes, P.G., and Prost, J., The Physics of Liquid Crystals, The International Series of
Monographs on Physics, vol. 83, (Clarendon Press; Oxford University Press, Oxford, U.K.;
New York, U.S.A., 1993), 2nd edition.
|
|
116 |
Dean, D.J., and Hjorth-Jensen, M., “Pairing in nuclear systems: from neutron stars to finite
nuclei”, Rev. Mod. Phys., 75, 607–656, (2003).
|
|
117 |
Dechargé, J., and Gogny, D., “Hartree-Fock-Bogolyubov calculations with the D1 effective
interaction on spherical nuclei”, Phys. Rev. C, 21, 1568–1593, (1980).
ADS: http://adsabs.harvard.edu/abs/1980PhRvC..21.1568D.
|
|
118 |
Department of Theoretical Astrophysics, Ioffe Physico Technical-Institute, “Neutron Star
Group”, project homepage. URL (cited on 20 August 2007):
http://www.ioffe.ru/astro/NSG/.
|
|
119 |
Dobaczewski, J., Michel, N., Nazarewicz, W., Płoszajczak, M., and Rotureau, J., “Shell
structure of exotic nuclei”, Prog. Part. Nucl. Phys., 59, 432–445, (2007). Related online version
(cited on 2 October 2007):
http://arXiv.org/abs/nucl-th/0701047.
|
|
120 |
Donati, P., and Pizzochero, P.M., “Is there Nuclear Pinning of Vortices in Superfluid Pulsars?”,
Phys. Rev. Lett., 90, 211101, (2003).
|
|
121 |
Donati, P., and Pizzochero, P.M., “Fully consistent semi-classical treatment of vortex-nucleus
interaction in rotating neutron stars”, Nucl. Phys. A, 742, 363–379, (2004).
|
|
122 |
Donati, P., and Pizzochero, P.M., “Realistic energies for vortex pinning in intermediate-density
neutron star matter”, Phys. Lett. B, 640, 74–81, (2006).
|
|
123 |
Douchin, F., and Haensel, P., “Bounds on the Existence of Neutron Rich Nuclei in Neutron
Star Interiors”, Acta Phys. Pol. B, 30, 1205, (1999). Related online version (cited on 2 October
2007):
http://arXiv.org/abs/astro-ph/9808030.
|
|
124 |
Douchin, F., and Haensel, P., “Inner edge of neutron-star crust with SLy effective
nucleon-nucleon interactions”, Phys. Lett. B, 485, 107–114, (2000). Related online version
(cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0006135.
|
|
125 |
Douchin, F., and Haensel, P., “A unified equation of state of dense matter and neutron star
structure”, Astron. Astrophys., 380, 151–167, (2001).
|
|
126 |
Douchin, F., Haensel, P., and Meyer, J., “Nuclear surface and curvature properties for SLy
Skyrme forces and nuclei in the inner neutron-star crust”, Nucl. Phys. A, 665, 419–446, (2000).
|
|
127 |
Duine, R.A., and Stoof, H.T.C., “Atom-molecule coherence in Bose gases”, Phys. Rep., 396,
115–195, (2004). Related online version (cited on 24 April 2008):
http://arXiv.org/abs/cond-mat/0312254.
|
|
128 |
Duncan, R.C., “ ‘Magnetars’, soft gamma repeaters and very strong magnetic fields”, personal
homepage, University of Texas Austin. URL (cited on 20 August 2007):
http://solomon.as.utexas.edu/~duncan/magnetar.html.
|
|
129 |
Duncan, R.C., “Global Seismic Oscillations in Soft Gamma Repeaters”, Astrophys. J. Lett.,
498, L45, (1998). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/9803060.
|
|
130 |
Dutta, A.K., Onsi, M., and Pearson, J.M., “Proton-shell effects in neutron-star matter”, Phys.
Rev. C, 69, 052801, (2004).
|
|
131 |
Dyson, F.J., “Volcano Theory of Pulsars”, Nature, 223, 486–487, (1969).
|
|
132 |
Easson, I., “Long-term changes in pulsar periods and the plasma in neutron star interiors”,
Astrophys. J., 233, 711–716, (1979).
|
|
133 |
Easson, I., “Postglitch behavior of the plasma inside neutron stars”, Astrophys. J., 228,
257–267, (1979).
|
|
134 |
Elgarøy, Ø., and de Blasio, F.V., “Superfluid vortices in neutron stars”, Astron. Astrophys.,
370, 939–950, (2001). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0102343.
|
|
135 |
Elgarøy, Ø., Engvik, L., Osnes, E., de Blasio, F.V., Hjorth-Jensen, M., and Lazzari, G.,
“Superfluidity and neutron star crust matter”, Phys. Rev. D, 54, 1848–1851, (1996). Related
online version (cited on 2 October 2007):
http://arXiv.org/abs/nucl-th/9509035.
|
|
136 |
Elgarøy, Ø., and Hjorth-Jensen, M., “Nucleon-nucleon phase shifts and pairing in neutron
matter and nuclear matter”, Phys. Rev. C, 57, 1174–1177, (1998). Related online version (cited
on 2 October 2007):
http://arXiv.org/abs/nucl-th/9708026.
|
|
137 |
Ellis, T., and McClintock, P.V.E., “The Breakdown of Superfluidity in Liquid 4He V.
Measurement of the Landau Critical Velocity for Roton Creation”, Philos. Trans. R. Soc.
London, Ser. A, 315, 259–300, (1985).
|
|
138 |
Epstein, R.I., and Baym, G., “Vortex pinning in neutron stars”, Astrophys. J., 328, 680–690,
(1988).
|
|
139 |
Epstein, R.I., and Baym, G., “Vortex drag and the spin-up time scale for pulsar glitches”,
Astrophys. J., 387, 276–287, (1992).
|
|
140 |
Farine, M., Von-Eiff, D., Schuck, P., Berger, J.F., Dechargé, J., and Girod, M., “Towards a
new effective interaction of the Gogny type”, J. Phys. G, 25, 863–866, (1999).
|
|
141 |
Feibelman, P.J., “Relaxation of Electron Velocity in a Rotating Neutron Superfluid: Application
to the Relaxation of a Pulsar’s Slowdown Rate”, Phys. Rev. D, 4, 1589–1597, (1971).
|
|
142 |
Fetter, A.L., and Walecka, J.D., Quantum Theory of Many-Particle Systems, (Dover, Mineola,
U.S.A., 2003).
|
|
143 |
Feynman, R.P., “Application of quantum mechanics to liquid helium”, in Gorter, C.J., ed.,
Progress in Low Temperature Physics, vol. 1, p. 17, (North-Holland, Amsterdam, Netherlands,
1955).
|
|
144 |
Feynman, R.P., Statistical Mechanics: A Set Of Lectures, Advanced Book Classics, (Westview
Press, Boulder, U.S.A., 1998).
|
|
145 |
Feynman, R.P., and Cohen, M., “Energy Spectrum of the Excitations in Liquid Helium”, Phys.
Rev., 102, 1189–1204, (1956).
|
|
146 |
Flowers, E., and Itoh, N., “Transport properties of dense matter”, Astrophys. J., 206, 218–242,
(1976).
|
|
147 |
Flowers, E., and Itoh, N., “Transport properties of dense matter. II”, Astrophys. J., 230,
847–858, (1979).
|
|
148 |
Flowers, E., Ruderman, M., and Sutherland, P., “Neutrino pair emission from
finite-temperature neutron superfluid and the cooling of young neutron stars”, Astrophys. J.,
205, 541–544, (1976).
|
|
149 |
Franco, L.M., Link, B., and Epstein, R.I., “Quaking Neutron Stars”, Astrophys. J., 543,
987–994, (2000). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/9911105.
|
|
150 |
Freedman, D.Z., “Coherent effects of a weak neutral current”, Phys. Rev. D, 9, 1389–1392,
(1974).
|
|
151 |
Fuchs, K., “A Quantum Mechanical Calculation of the Elastic Constants of Monovalent
Metals”, Proc. R. Soc. London, Ser. A, 153, 622–639, (1936).
|
|
152 |
Fujimoto, M.Y., Hanawa, T., and Miyaji, S., “Shell flashes on accreting neutron stars and
X-ray bursts”, Astrophys. J., 247, 267–278, (1981).
|
|
153 |
Galloway, D.K., Morgan, E.H., and Levine, A.M., “A Frequency Glitch in an Accreting Pulsar”,
Astrophys. J., 613, 1164–1172, (2004). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0401476.
|
|
154 |
Gandelman, G.M., and Pinaev, V.S., “Emission of neutrino pairs by electrons and its
importance in stars”, Zh. Eksp. Teor. Fiz., 37, 1072–1078, (1959). In Russian.
|
|
155 |
Gandelman, G.M., and Pinaev, V.S., “Emission of neutrino pairs by electrons and its
importance in stars”, Sov. Phys. JETP, 10, 764, (1960).
|
|
156 |
Gelfand, J.D., “The radio nebula produced by the 27 December 2004 giant flare from SGR
1806-20”, Astrophys. Space Sci., 308, 39–42, (2007).
ADS: http://adsabs.harvard.edu/abs/2007Ap&SS.308...39G.
|
|
157 |
Gelfert, A., and Nolting, W., “The absence of finite-temperature phase transitions in
low-dimensional many-body models: a survey and new results”, J. Phys.: Cond. Matter, 13,
R505–R524, (2001). Related online version (cited on 26 May 2008):
http://arXiv.org/abs/cond-mat/0106090.
|
|
158 |
Geppert, U., Küker, M., and Page, D., “Temperature distribution in magnetized neutron star
crusts”, Astron. Astrophys., 426, 267–277, (2004). Related online version (cited on 2 October
2007):
http://arXiv.org/abs/astro-ph/0403441.
|
|
159 |
Giacconi, R., Gursky, H., Paolini, F.R., and Rossi, B.B., “Evidence for X-Rays From Sources
Outside the Solar System”, Phys. Rev. Lett., 9, 439–443, (1962).
|
|
160 |
Ginzburg, V.L., “Superfluidity and Superconductivity in the Universe”, J. Stat. Phys., 1, 3–24,
(1969).
|
|
161 |
Ginzburg, V.L., and Kirzhnits, D.A., “On superfluidity of neutron stars”, Zh. Eksp. Teor. Fiz.,
47, 2006, (1964).
|
|
162 |
Ginzburg, V.L., and Kirzhnits, D.A., “On the superfluidity of neutron stars”, Sov. Phys. JETP,
20, 1346, (1965).
|
|
163 |
Glampedakis, K., and Andersson, N., “Crust-core coupling in rotating neutron stars”, Phys.
Rev. D, 74, 044040, (2006). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0411750.
|
|
164 |
Glampedakis, K., and Andersson, N., “Ekman layer damping of r modes revisited”, Mon. Not.
R. Astron. Soc., 371, 1311–1321, (2006). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0607105.
|
|
165 |
Glampedakis, K., Samuelsson, L., and Andersson, N., “Elastic or magnetic? A toy model for
global magnetar oscillations with implications for quasi-periodic oscillations during flares”,
Mon. Not. R. Astron. Soc., 371, L74–L77, (2006). Related online version (cited on 2 October
2007):
http://arXiv.org/abs/astro-ph/0605461.
|
|
166 |
Glendenning, N.K., ed., Compact stars: nuclear physics, particle physics, and general relativity,
Astronomy and Astrophysics Library, (Springer, New York, U.S.A.; Berlin, Germany, 2000),
2nd edition.
|
|
167 |
Gnedin, O.Y., Yakovlev, D.G., and Potekhin, A.Y., “Thermal relaxation in young neutron
stars”, Mon. Not. R. Astron. Soc., 324, 725–736, (2001). Related online version (cited on 2
October 2007):
http://arXiv.org/abs/astro-ph/0012306.
|
|
168 |
Gögelein, P., and Müther, H., “Nuclear matter in the crust of neutron stars”, Phys. Rev. C,
76, 024312, (2007). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/0704.1984.
|
|
169 |
Gori, G., Ramponi, F., Barranco, F., Broglia, R.A., Colò, G., Sarchi, D., and Vigezzi, E.,
“Excitation modes and pairing interaction in the inner crust of a neutron stars”, Nucl. Phys.
A, 731, 401–408, (2004).
|
|
170 |
Goriely, S., Demetriou, P., Janka, H.-T., Pearson, J.M., and Samyn, M., “The r-process
nucleosynthesis: a continued challenge for nuclear physics and astrophysics”, Nucl. Phys. A,
758, 587–594, (2005). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0410429.
|
|
171 |
Goriely, S., Samyn, M., Pearson, J.M., and Onsi, M., “Further explorations of
Skyrme-Hartree-Fock-Bogoliubov mass formulas. IV: Neutron-matter constraint”, Nucl. Phys.
A, 750, 425–443, (2005).
|
|
172 |
Gorkov, L.P., and Melik-Barkhudarov, T.K., “Contribution to the theory of super-fluidity in
an imperfect Fermi gas”, Sov. Phys. JETP, 13, 1018, (1961).
|
|
173 |
Gorter, C.J., and Mellink, J.H., “On the irreversible processes in liquid helium II”, Physica,
15, 285–304, (1949).
|
|
174 |
Gourgoulhon, E., “An Introduction to Relativistic Hydrodynamics”, in Rieutord, M., and
Dubrulle, B., eds., Stellar Fluid Dynamics and Numerical Simulations: From the Sun to Neutron
Stars, Aussois and Cargèse, France, September 2004 and May 2005, EAS Publications Series,
vol. 21, pp. 43–79, (EDP Sciences, Les Ulis, France, 2006).
|
|
175 |
Greenstein, G., “Superfluid turbulence in neutron stars”, Nature, 227, 791–794, (1970).
|
|
176 |
Grigorian, H., “Brightness constraint for cooling models of young neutron stars”, Phys. Rev.
C, 74, 025801, (2006). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0507052.
|
|
177 |
Grindlay, J., Gursky, H., Schnopper, H., Parsignault, D.R., Heise, J., Brinkman, A.C., and
Schrijver, J., “Discovery of intense X-ray bursts from the globular cluster NGC 6624”,
Astrophys. J., 205, L127–L130, (1976).
|
|
178 |
Gupta, S., Brown, E.F., Schatz, H., Möller, P., and Kratz, K.-L., “Heating in the Accreted
Neutron Star Ocean: Implications for Superburst Ignition”, Astrophys. J., 662, 1188–1197,
(2007). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0609828.
|
|
179 |
Gusakov, M.E., Yakovlev, D.G., Haensel, P., and Gnedin, O.Y., “Direct Urca process in a
neutron star mantle”, Astron. Astrophys., 421, 1143–1148, (2004). Related online version (cited
on 2 October 2007):
http://arXiv.org/abs/astro-ph/0404165.
|
|
180 |
Haberl, F., Turolla, R., de Vries, C.P., Zane, S., Vink, J., Méndez, M., and Verbunt, F.,
“Evidence for precession of the isolated neutron star RX J0720.4-3125”, Astron. Astrophys.,
451, L17–L21, (2006). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0603724.
|
|
181 |
Haensel, P., Kaminker, A.D., and Yakovlev, D.G., “Electron neutrino-antineutrino
bremsstrahlung in a liquid phase of neutron star crusts”, Astron. Astrophys., 314, 328–340,
(2003). Related online version (cited on 28 April 2008):
http://arXiv.org/abs/astro-ph/9604073.
|
|
182 |
Haensel, P., Levenfish, K.P., and Yakovlev, D.G., “Bulk viscosity in superfluid neutron star
cores. III. Effects of Σ− hyperons”, Astron. Astrophys., 381, 1080–1089, (2002). Related online
version (cited on 28 April 2008):
http://arXiv.org/abs/astro-ph/0110575.
|
|
183 |
Haensel, P., and Pichon, B., “Experimental nuclear masses and the ground state of cold dense
matter”, Astron. Astrophys., 283, 313–318, (1994). Related online version (cited on 2 October
2007):
http://arXiv.org/abs/nucl-th/9310003.
|
|
184 |
Haensel, P., Potekhin, A.Y., and Yakovlev, D.G., Neutron Stars 1: Equation of State and
Structure, Astrophysics and Space Science Library, vol. 326, (Springer, New York, U.S.A.,
2007).
|
|
185 |
Haensel, P., and Zdunik, J.L., “Equation of state and structure of the crust of an accreting
neutron star”, Astron. Astrophys., 229, 117–122, (1990).
|
|
186 |
Haensel, P., and Zdunik, J.L., “Non-equilibrium processes in the crust of an accreting neutron
star”, Astron. Astrophys., 227, 431–436, (1990).
|
|
187 |
Haensel, P., and Zdunik, J.L., “Nuclear composition and heating in accreting neutron-star
crusts”, Astron. Astrophys., 404, L33–L36, (2003). Related online version (cited on 2 October
2007):
http://arXiv.org/abs/astro-ph/0305220.
|
|
188 |
Haensel, P., and Zdunik, J.L., “Models of crustal heating in accreting neutron stars”, Astron.
Astrophys., 480, 459–464, (2008). Related online version (cited on 16 June 2008):
http://arXiv.org/abs/0708.3996.
|
|
189 |
Harding, D., Guyer, R.A., and Greenstein, G., “Superfluidity in neutron stars. III. Relaxation
processes between the superfluid and the crust”, Astrophys. J., 222, 991–1005, (1978).
ADS: http://adsabs.harvard.edu/abs/1978ApJ...222..991H.
|
|
190 |
Hartle, J.B., “Slowly Rotating Relativistic Stars. I. Equations of Structure”, Astrophys. J.,
150, 1005–1029, (1967).
|
|
191 |
Hashimoto, M., Seki, H., and Yamada, M., “Shape of Nuclei in the Crust of Neutron Star”,
Prog. Theor. Phys., 71, 320–326, (1984).
ADS: http://adsabs.harvard.edu/abs/1984PThPh..71..320H.
|
|
192 |
Haskell, B., Jones, D.I., and Andersson, N., “Mountains on neutron stars: accreted versus
non-accreted crusts”, Mon. Not. R. Astron. Soc., 373, 1423–1439, (2006). Related online
version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0609438.
|
|
193 |
Haskell, B., Samuelsson, L., Glampedakis, K., and Andersson, N., “Modelling magnetically
deformed neutron stars”, Mon. Not. R. Astron. Soc., 385, 531–542, (2008). Related online
version (cited on 16 June 2008):
http://arXiv.org/abs/0705.1780.
|
|
194 |
Heinz, S., Schulz, N.S., Brandt, W.N., and Galloway, D.K., “Evidence of a Parsec-Scale X-Ray
Jet from the Accreting Neutron Star Circinus X-1”, Astrophys. J., 663, L93–L96, (2007).
Related online version (cited on 2 October 2007):
http://arXiv.org/abs/0706.3881.
|
|
195 |
Hessels, J.W.T., Ransom, S.M., Stairs, I.H., Freire, P.C.C., Kaspi, V.M., and Camilo, F., “A
Radio Pulsar Spinning at 716 Hz”, Science, 311, 1901–1904, (2006). Related online version
(cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0601337.
|
|
196 |
Heyl, J.S., “r-Modes on Rapidly Rotating, Relativistic Stars. I. Do Type I Bursts Excite Modes
in the Neutron Star Ocean?”, Astrophys. J., 600, 939–945, (2004). Related online version (cited
on 2 October 2007):
http://arXiv.org/abs/astro-ph/0108450.
|
|
197 |
Hillebrandt, W., Wolff, R.G., and Nomoto, K., “Supernova explosions of massive stars. The
mass range 8 to 10 M⊙”, Astron. Astrophys., 133, 175–184, (1984).
ADS: http://adsabs.harvard.edu/abs/1984A&A...133..175H.
|
|
198 |
Hirasawa, M., and Shibazaki, N., “Vortex Configurations, Oscillations, and Pinning in Neutron
Star Crusts”, Astrophys. J., 563, 267–275, (2001). Related online version (cited on 2 October
2007):
http://arXiv.org/abs/astro-ph/0109196.
|
|
199 |
Hobbs, G., Lyne, A.G., Joshi, B.C., Kramer, M., Stairs, I.H., Camilo, F., Manchester, R.N.,
D’Amico, N., Possenti, A., and Kaspi, V.M., “A very large glitch in PSR J1806-2125”, Mon.
Not. R. Astron. Soc., 333, L7–L10, (2002). Related online version (cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0204445.
|
|
200 |
Horner, H., “Scattering Function S(Q,ω) for Solid Helium”, Phys. Rev. Lett., 29, 556–558,
(1972).
|
|
201 |
Horowitz, C.J., Pérez-García, M.A., Berry, D.K., and Piekarewicz, J., “Dynamical response
of the nuclear ‘pasta’ in neutron star crusts”, Phys. Rev. C, 72, 035801, (2005). Related online
version (cited on 2 October 2007):
http://arXiv.org/abs/nucl-th/0508044.
|
|
202 |
Hund, F., “Materie unter sehr hohen Drucken und Temperaturen”, Ergeb. Exakten Naturwiss.,
15, 189–228, (1936).
|
|
203 |
Hund, F., “Matter under very high pressures and temperatures”, in Riffert, H., Müther, H.,
Herold, H., and Ruder, H., eds., Matter at High Densities in Astrophysics: Compact Stars and
the Equation of State, Springer Tracts in Modern Physics, vol. 133, pp. 217–257, (Springer,
Berlin, Germany; New York, U.S.A., 1996).
|
|
204 |
Hüttner, B., “A new method for the determination of the optical mass of electrons in metals”,
J. Phys.: Cond. Matter, 8, 11041–11052, (1996).
|
|
205 |
Iida, K., and Sato, K., “Spin-down of Neutron Stars and Compositional Transitions in the Cold
Crustal Matter”, Astrophys. J., 477, 294, (1997). Related online version (cited on 2 October
2007):
http://arXiv.org/abs/astro-ph/9609093.
|
|
206 |
Iida, K., Watanabe, G., and Sato, K., “Formation of Nuclear ‘Pasta’ in Cold Neutron Star
Matter”, Prog. Theor. Phys., 106, 551–559, (2001). Related online version (cited on 2 October
2007):
http://arXiv.org/abs/nucl-th/0108034.
|
|
207 |
Iida, K., Watanabe, G., and Sato, K., “Formation of Nuclear ‘Pasta’ in Cold Neutron Star
Matter”, Prog. Theor. Phys., 110, 847–848, (2003).
|
|
208 |
INFN, “The Virgo Project”, project homepage. URL (cited on 20 August 2007):
http://www.virgo.infn.it/.
|
|
209 |
Inman, C.L., and Ruderman, M.A., “Plasma Neutrino Emission from a Hot, Dense Electron
Gas”, Astrophys. J., 140, 1025, (1964).
|
|
210 |
Institut für Theoretische Physik, “Matthias Hempel’s homepage”, personal homepage. URL
(cited on 20 August 2007):
http://th.physik.uni-frankfurt.de/~hempel/.
|
|
211 |
Institute of Astronomy and Astrophysics, Université Libre de Bruxelles, “BRUSLIB: the
Brussels Nuclear Library for Astrophysics Applications”, online resource. URL (cited on 20
August 2007):
http://www.astro.ulb.ac.be/Html/bruslib.html.
|
|
212 |
Instituto de Astronomía UNAM, “Neutron Star Theory Group at UNAM”, project homepage.
URL (cited on 20 August 2007):
http://www.astroscu.unam.mx/neutrones/.
|
|
213 |
in’t Zand, J.J.M., Cornelisse, R., Kuulkers, E., Heise, J., Kuiper, L., Bazzano, A., Cocchi,
M., Muller, J.M., Natalucci, L., Smith, M.J.S., and Ubertini, P., “The first outburst of SAX
J1808.4-3658 revisited”, Astron. Astrophys., 372, 916–921, (2001). Related online version (cited
on 2 October 2007):
http://arXiv.org/abs/astro-ph/0104285.
|
|
214 |
Israel, G.L., Belloni, T., Stella, L., Rephaeli, Y., Gruber, D.E., Casella, P., Dall’Osso, S., Rea,
N., Persic, M., and Rothschild, R.E., “The Discovery of Rapid X-Ray Oscillations in the Tail
of the SGR 1806-20 Hyperflare”, Astrophys. J., 628, L53–L56, (2005). Related online version
(cited on 2 October 2007):
http://arXiv.org/abs/astro-ph/0505255.
|
|
215 |
Itoh, N., Adachi, T., Nakagawa, M., Kohyama, Y., and Munakata, H., “Neutrino Energy Loss
in Stellar Interiors. III. Pair, Photo-, Plasma, and Bremsstrahlung Processes”, Astrophys. J.,
339, 354–364, (1989).
ADS: http://adsabs.harvard.edu/abs/1989ApJ...339..354I.
|