Search results for "pulsars : general"

showing 4 items of 4 documents

Precise determination of orbital parameters in system with slowly drifting phases: application to the case of XTE J1807-294

2007

We describe a timing technique that allows to obtain precise orbital parameters of an accreting millisecond pulsar in those cases in which intrinsic variations of the phase delays (caused e.g. by proper variation of the spin frequency) with characteristic timescale longer than the orbital period do not allow to fit the orbital parameters over a long observation (tens of days). We show under which conditions this method can be applied and show the results obtained applying this method to the 2003 outburst observed by RXTE of the accreting millisecond pulsar XTE J1807-294 which shows in its phase delays a non-negligible erratic behavior. We refined the orbital parameters of XTE J1807-294 usin…

Orbital elementsPhysicspulsars : individualAstrophysics::High Energy Astrophysical PhenomenaAstrophysics (astro-ph)Phase (waves)pulsars : generalFOS: Physical sciencesstars : magnetic fieldAstronomy and AstrophysicsAstrophysicsOrbital periodAstrophysicsstars : neutronX-ray : binariesXTE J1807-294Space and Planetary ScienceMillisecond pulsarAstrophysics::Earth and Planetary AstrophysicsSpin (physics)Variation (astronomy)magnetic fields; stars : neutron; pulsars : general; pulsars : individual; XTE J1807-294; X-ray : binaries [stars]Order of magnitude
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The Role Of General Relativity in the Evolution of Low-Mass X-ray Binaries

2005

We study the evolution of Low Mass X-ray Binaries (LMXBs) and of millisecond binary radio pulsars (MSPs), with numerical simulations that keep into account the evolution of the companion, of the binary system and of the neutron star. According to general relativity, when energy is released, the system loses gravitational mass. Moreover, the neutron star can collapse to a black hole if its mass exceeds a critical limit, that depends on the equation of state. These facts have some interesting consequences: 1) In a MSP the mass-energy is lost with a specific angular momentum that is smaller than the one of the system, resulting in a positive contribution to the orbital period derivative. If th…

Physics:relativityX-rays : binariesGeneral relativityAstrophysics::High Energy Astrophysical PhenomenaAstrophysics (astro-ph)pulsars : generalFOS: Physical sciencesrelativity; binaries : close; stars : individual : SAX J1808.4-3658; stars : neutron; pulsars : general; X-rays : binariesAstronomy and AstrophysicsAstrophysicsMoment of inertiaOrbital periodAstrophysicsSpecific relative angular momentumstars : neutronBlack holeNeutron starPulsarstars : individual : SAX J1808.4-3658Space and Planetary Sciencebinaries : closeLow Mass
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Discovery of slow X-ray pulsations in the high-mass X-ray binary 4U 2206+54

2008

Context. The source 4U 2206+54 is one of the most enigmatic high-mass X-ray binaries. In spite of intensive searches, X-ray pul- sations have not been detected in the time range 10−3–103 s. A cyclotron line at ∼30 keV has been suggested by various authors but never detected with significance. The stellar wind of the optical companion is abnormally slow. The orbital period, initially reported to be 9.6 days, disappeared and a new periodicity of 19.25 days emerged. Aims. The main objective of our RXTE monitoring of 4U 2206+54 is to study the X-ray orbital variability of the spectral and timing parameters. The new long and uninterrupted RXTE observations allow us to search for long (∼1 h) puls…

media_common.quotation_subjectAstrophysics::High Energy Astrophysical Phenomenapulsars : general [Stars]X-ray binaryFOS: Physical sciencesOrbital eccentricityAstrophysicsAstrophysicsStars : early-type; Stars : emission-line Be; Stars : binaries : close; X-rays : binaries; Stars : pulsars : generalLuminosityearly-type [Stars]:ASTRONOMÍA Y ASTROFÍSICA::Cosmología y cosmogonia::Fuentes de Rayos X [UNESCO]UNESCO::ASTRONOMÍA Y ASTROFÍSICA::Cosmología y cosmogonia::Fuentes de Rayos XAstrophysics::Solar and Stellar AstrophysicsEccentricity (behavior)binaries : close [Stars]media_commonLine (formation)PhysicsAstrophysics (astro-ph)Astronomy and AstrophysicsOrbital periodLight curveNeutron starSpace and Planetary Scienceemission-line Be [Stars]binaries [X-rays]Astrophysics::Earth and Planetary AstrophysicsUNESCO::ASTRONOMÍA Y ASTROFÍSICA::Cosmología y cosmogonia::Estrellas:ASTRONOMÍA Y ASTROFÍSICA::Cosmología y cosmogonia::Estrellas [UNESCO]
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Timing an Accreting Millisecond Pulsar: Measuring the Accretion Torque in IGR J00291+5934

2006

We performed a timing analysis of the fastest accreting millisecond pulsar IGR J00291+5934 using RXTE data taken during the outburst of December 2004. We corrected the arrival times of all the events for the orbital (Doppler) effects and performed a timing analysis of the resulting phase delays. In this way we have the possibility to study, for the first time in this class of sources, the spin-up of a millisecond pulsar as a consequence of accretion torques during the X-ray outburst. The accretion torque gives us for the first time an independent estimate of the mass accretion rate onto the neutron star, which can be compared with the observed X-ray luminosity. We also report a revised valu…

neutron; stars : magnetic fields; pulsars : general; pulsars : individual : IGR J00291+5934; X-ray : binaries [accretion accretion disks; stars]X-rays : binariesAstrophysics::High Energy Astrophysical PhenomenaX-ray binaryFOS: Physical sciencesAstrophysicsaccretion accretion diskAstrophysicsX-ray : binariesBinary pulsarLuminositypulsars : individual : IGR J00291+5934symbols.namesakePulsarMillisecond pulsarAstrophysics::Solar and Stellar Astrophysicspulsars : individual (IGR J00291+5934)PhysicsAccretion (meteorology)general; pulsars : individual (IGR J00291+5934); stars : magnetic fields; stars : neutron; X-rays : binaries [pulsars]Astrophysics (astro-ph)pulsars : generalStatic timing analysisAstronomystars : magnetic fieldAstronomy and Astrophysicsstars : neutronNeutron starSpace and Planetary SciencesymbolsAstrophysics::Earth and Planetary AstrophysicsDoppler effectX-ray pulsar
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