X-ray Polarization Reveals the Precessions of the Neutron Star in   Hercules X-1

Jeremy Heyl; Victor Doroshenko; Denis Gonz\'alez-Caniulef; Ilaria; Caiazzo; Juri Poutanen; Alexander Mushtukov; Sergey S. Tsygankov; Demet; Kirmizibayrak; Matteo Bachetti; George G. Pavlov; Sofia V. Forsblom,; Christian Malacaria; Valery F. Suleimanov; Iv\'an Agudo; Lucio Angelo; Antonelli; Luca Baldini; Wayne H. Baumgartner; Ronaldo Bellazzini; Stefano; Bianchi; Stephen D. Bongiorno; Raffaella Bonino; Alessandro Brez; Niccol\`o; Bucciantini; Fiamma Capitanio; Simone Castellano; Elisabetta Cavazzuti,; Chien-Ting Chen; Stefano Ciprini; Enrico Costa; Alessandra De Rosa; Ettore; Del Monte; Laura Di Gesu; Niccol\`o Di Lalla; Alessandro Di Marco; Immacolata; Donnarumma; Michal Dov\v{c}iak; Steven R. Ehlert; Teruaki Enoto; Yuri; Evangelista; Sergio Fabiani; Riccardo Ferrazzoli; Javier A. Garcia; Shuichi; Gunji; Kiyoshi Hayashida; Wataru Iwakiri; Svetlana G. Jorstad; Philip Kaaret,; Vladimir Karas; Fabian Kislat; Takao Kitaguchi; Jeffery J. Kolodziejczak,; Henric Krawczynski; Fabio La Monaca; Luca Latronico; Ioannis Liodakis; Simone; Maldera; Alberto Manfreda; Fr\'ed\'eric Marin; Andrea Marinucci; Alan P.; Marscher; Herman L. Marshall; Francesco Massaro; Giorgio Matt; Ikuyuki; Mitsuishi; Tsunefumi Mizuno; Fabio Muleri; Michela Negro; C.-Y. Ng; Stephen; L. O'Dell; Nicola Omodei; Chiara Oppedisano; Alessandro Papitto; Abel; Lawrence Peirson; Matteo Perri; Melissa Pesce-Rollins; Pierre-Olivier; Petrucci; Maura Pilia; Andrea Possenti; Simonetta Puccetti; Brian D. Ramsey,; John Rankin; Ajay Ratheesh; Oliver J. Roberts; Roger W. Romani; Carmelo; Sgr\`o; Patrick Slane; Paolo Soffitta; Gloria Spandre; Douglas A. Swartz,; Toru Tamagawa; Fabrizio Tavecchio; Roberto Taverna; Yuzuru Tawara; Allyn F.; Tennant; Nicholas E. Thomas; Francesco Tombesi; Alessio Trois; Roberto; Turolla; Jacco Vink; Martin C. Weisskopf; Kinwah Wu; Fei Xie; Silvia Zane

arXiv:2311.03667·astro-ph.HE·November 8, 2023·1 cites

X-ray Polarization Reveals the Precessions of the Neutron Star in Hercules X-1

Jeremy Heyl, Victor Doroshenko, Denis Gonz\'alez-Caniulef, Ilaria, Caiazzo, Juri Poutanen, Alexander Mushtukov, Sergey S. Tsygankov, Demet, Kirmizibayrak, Matteo Bachetti, George G. Pavlov, Sofia V. Forsblom,, Christian Malacaria, Valery F. Suleimanov, Iv\'an Agudo, Lucio Angelo

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TL;DR

X-ray polarization measurements of Hercules X-1 with IXPE provide direct evidence of neutron star precession, revealing crust asymmetry and dynamic spin geometry changes over time.

Contribution

This study is the first to confirm neutron star precession in Hercules X-1 using X-ray polarization data, demonstrating crust asymmetry and variable spin geometry.

Findings

01

Neutron star in Hercules X-1 precesses with a 35-day period.

02

Crust asymmetry is confirmed at a level of a few parts per ten million.

03

Neutron star spin geometry changes over a few hundred days.

Abstract

In an accreting X-ray pulsar, a neutron star accretes matter from a stellar companion through an accretion disk. The high magnetic field of the rotating neutron star disrupts the inner edge of the disc, funneling the gas to flow onto the magnetic poles on its surface. Hercules X-1 is in many ways the prototypical X-ray pulsar; it shows persistent X-ray emission and it resides with its companion HZ Her, a two-solar-mass star, at about 7~kpc from Earth. Its emission varies on three distinct timescales: the neutron star rotates every 1.2~seconds, it is eclipsed by its companion each 1.7~days, and the system exhibits a superorbital period of 35~days which has remained remarkably stable since its discovery. Several lines of evidence point to the source of this variation as the precession of the accretion disc, the precession of the neutron star or both. Despite the many hints over the past…

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Taxonomy

TopicsMechanics and Biomechanics Studies · Astro and Planetary Science · Astronomical Observations and Instrumentation