Gravitational wave asteroseismology reexamined Export

@article{citeulike:3559101, abstract = {The frequencies and damping times of the non radial oscillations of non rotating neutron stars are computed for a set of recently proposed equations of state (EOS) which describe matter at supranuclear densities. These EOS are obtained within two different approaches, the nonrelativistic nuclear many-body theory and the relativistic mean field theory, that model hadronic interactions in different ways leading to different composition and dynamics. Being the non radial oscillations associated to the emission of gravitational waves, we fit the eigenfrequencies of the fundamental mode and of the first pressure and gravitational-wave mode (polar and axial) with appropriate functions of the mass and radius of the star, comparing the fits, when available, with those obtained by Andersson and Kokkotas in 1998. We show that the identification in the spectrum of a detected gravitational signal of a sharp pulse corresponding to the excitation of the fundamental mode or of the first p-mode, combined with the knowledge of the mass of the star—the only observable on which we may have reliable information—would allow to gain interesting information on the composition of the inner core. We further discuss the detectability of these signals by gravitational detectors.}, author = {Benhar, O. and Ferrari, V. and Gualtieri, L.}, citeulike-article-id = {3559101}, citeulike-linkout-0 = {http://prola.aps.org/pdf/PRD/v70/i12/e124015}, journal = {physical review D}, keywords = {eos, gw, neutron, stars}, number = {12}, pages = {124015+}, posted-at = {2008-11-17 16:46:18}, priority = {2}, title = {Gravitational wave asteroseismology reexamined}, url = {http://prola.aps.org/pdf/PRD/v70/i12/e124015}, volume = {70}, year = {2004} }

TY - JOUR ID - citeulike:3559101 L3 - citeulike-article-id:3559101 N2 - The frequencies and damping times of the non radial oscillations of non rotating neutron stars are computed for a set of recently proposed equations of state (EOS) which describe matter at supranuclear densities. These EOS are obtained within two different approaches, the nonrelativistic nuclear many-body theory and the relativistic mean field theory, that model hadronic interactions in different ways leading to different composition and dynamics. Being the non radial oscillations associated to the emission of gravitational waves, we fit the eigenfrequencies of the fundamental mode and of the first pressure and gravitational-wave mode (polar and axial) with appropriate functions of the mass and radius of the star, comparing the fits, when available, with those obtained by Andersson and Kokkotas in 1998. We show that the identification in the spectrum of a detected gravitational signal of a sharp pulse corresponding to the excitation of the fundamental mode or of the first p-mode, combined with the knowledge of the mass of the star—the only observable on which we may have reliable information—would allow to gain interesting information on the composition of the inner core. We further discuss the detectability of these signals by gravitational detectors. IS - 12 JF - physical review D TI - Gravitational wave asteroseismology reexamined VL - 70 SP - 124015 KW - eos KW - gw KW - neutron KW - stars AU - Benhar, O AU - Ferrari, V AU - Gualtieri, L PY - 2004/// UR - http://prola.aps.org/pdf/PRD/v70/i12/e124015 ER -