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Lense–Thirring frame dragging induced by a fast-rotating white dwarf in a binary pulsar system

V. Venkatraman Krishnan, M. Bailes, W. van Straten, N. Wex, P. C. C. Freire, E. F. Keane, T. M. Tauris, P. A. Rosado, N. D. R. Bhat, C. Flynn, A. Jameson, S. Osłowski

2020Science74 citationsDOIOpen Access PDF

Abstract

Radio pulsars in short-period eccentric binary orbits can be used to study both gravitational dynamics and binary evolution. The binary system containing PSR J1141-6545 includes a massive white dwarf (WD) companion that formed before the gravitationally bound young radio pulsar. We observed a temporal evolution of the orbital inclination of this pulsar that we infer is caused by a combination of a Newtonian quadrupole moment and Lense-Thirring (LT) precession of the orbit resulting from rapid rotation of the WD. LT precession, an effect of relativistic frame dragging, is a prediction of general relativity. This detection is consistent with an evolutionary scenario in which the WD accreted matter from the pulsar progenitor, spinning up the WD to a period of <200 seconds.

Topics & Concepts

PhysicsPulsarAstrophysicsWhite dwarfPrecessionBinary pulsarAstronomyEphemerisBinary numberOrbit (dynamics)Binary systemOrbital inclinationEccentricity (behavior)Orbital elementsRotation (mathematics)Orbital eccentricityGravitational waveMillisecond pulsarQuadrupoleGravitationOrbital periodApsidal precessionCircular orbitGravitational energyBinary starProper motionReference frameSpin (aerodynamics)Black hole (networking)General relativitySatellitePulsars and Gravitational Waves ResearchAstrophysical Phenomena and ObservationsCosmology and Gravitation Theories
Lense–Thirring frame dragging induced by a fast-rotating white dwarf in a binary pulsar system | Litcius