X-Ray Polarization Detection of Cassiopeia A with IXPE

Vink Jacco; Prokhorov Dmitry; Ferrazzoli Riccardo; Slane Patrick; Zhou Ping; Asakura Kazunori; Baldini Luca; Bucciantini Niccoló; Costa Enrico; Di Marco Alessandro; Heyl Jeremy; Marin Frédéric; Mizuno Tsunefumi; Ng C.-Y.; Pesce-Rollins Melissa; Ramsey Brian D.; Rankin John; Ratheesh Ajay; Sgró Carmelo; Soffitta Paolo; Swartz Douglas A.; Tamagawa Toru; Weisskopf Martin C.; Yang Yi-Jung; Bellazzini Ronaldo; Bonino Raffaella; Cavazzuti Elisabetta; Costamante Luigi; Di Lalla Niccoló; Latronico Luca; Maldera Simone; Manfreda Alberto; Massaro Francesco; Mitsuishi Ikuyuki; Omodei Nicola; Oppedisano Chiara; Zane Silvia; Agudo Ivan; Antonelli Lucio A.; Bachetti Matteo; Baumgartner Wayne H.; Bianchi Stefano; Bongiorno Stephen D.; Brez Alessandro; Capitanio Fiamma; Castellano Simone; Ciprini Stefano; De Rosa Alessandra; Del Monte Ettore; Di Gesu Laura; Donnarumma Immacolata; Doroshenko Victor; Dovčiak Michal; Ehlert Steven R.; Enoto Teruaki; Evangelista Yuri; Fabiani Sergio; Garcia Javier A.; Gunji Shuichi; Hayashida Kiyoshi; Iwakiri Wataru; Jorstad Svetlana G.; Karas Vladimir; Kitaguchi Takao; Kolodziejczak Jeffery J.; Krawczynski Henric; La Monaca Fabio; Liodakis Ioannis; Marinucci Andrea; Marscher Alan P.; Marshall Herman L.; Matt Giorgio; Muleri Fabio; O'Dell Stephen L.; Papitto Alessandro; Pavlov George G.; Peirson Abel L.; Perri Matteo; Pilia Maura; Possenti Andrea; Poutanen Juri; Puccetti Simonetta; Romani Roger W.; Spandre Gloria; Tavecchio Fabrizio; Taverna Roberto; Tawara Yuzuru; Tennant Allyn F.; Thomas Nicolas E.; Tombesi Francesco; Trois Alessio; Tsygankov Sergey; Turolla Roberto; Wu Kinwah; Xie Fei
X-Ray Polarization Detection of Cassiopeia A with IXPE

Vink Jacco
Prokhorov Dmitry
Ferrazzoli Riccardo
Slane Patrick
Zhou Ping
Asakura Kazunori
Baldini Luca
Bucciantini Niccoló
Costa Enrico
Di Marco Alessandro
Heyl Jeremy
Marin Frédéric
Mizuno Tsunefumi
Ng C.-Y.
Pesce-Rollins Melissa
Ramsey Brian D.
Rankin John
Ratheesh Ajay
Sgró Carmelo
Soffitta Paolo
Swartz Douglas A.
Tamagawa Toru
Weisskopf Martin C.
Yang Yi-Jung
Bellazzini Ronaldo
Bonino Raffaella
Cavazzuti Elisabetta
Costamante Luigi
Di Lalla Niccoló
Latronico Luca
Maldera Simone
Manfreda Alberto
Massaro Francesco
Mitsuishi Ikuyuki
Omodei Nicola
Oppedisano Chiara
Zane Silvia
Agudo Ivan
Antonelli Lucio A.
Bachetti Matteo
Baumgartner Wayne H.
Bianchi Stefano
Bongiorno Stephen D.
Brez Alessandro
Capitanio Fiamma
Castellano Simone
Ciprini Stefano
De Rosa Alessandra
Del Monte Ettore
Di Gesu Laura
Donnarumma Immacolata
Doroshenko Victor
Dovčiak Michal
Ehlert Steven R.
Enoto Teruaki
Evangelista Yuri
Fabiani Sergio
Garcia Javier A.
Gunji Shuichi
Hayashida Kiyoshi
Iwakiri Wataru
Jorstad Svetlana G.
Karas Vladimir
Kitaguchi Takao
Kolodziejczak Jeffery J.
Krawczynski Henric
La Monaca Fabio
Liodakis Ioannis
Marinucci Andrea
Marscher Alan P.
Marshall Herman L.
Matt Giorgio
Muleri Fabio
O'Dell Stephen L.
Papitto Alessandro
Pavlov George G.
Peirson Abel L.
Perri Matteo
Pilia Maura
Possenti Andrea
Poutanen Juri
Puccetti Simonetta
Romani Roger W.
Spandre Gloria
Tavecchio Fabrizio
Taverna Roberto
Tawara Yuzuru
Tennant Allyn F.
Thomas Nicolas E.
Tombesi Francesco
Trois Alessio
Tsygankov Sergey
Turolla Roberto
Wu Kinwah
Xie Fei
Katso/Avaa
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IOP Publishing Ltd
doi:10.3847/1538-4357/ac8b7b
URI
https://iopscience.iop.org/article/10.3847/1538-4357/ac8b7b
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Julkaisun pysyvä osoite on:
https://urn.fi/URN:NBN:fi-fe2022112968038
Tiivistelmä
We report on a similar to 5 sigma detection of polarized 3-6 keV X-ray emission from the supernova remnant Cassiopeia A (Cas A) with the Imaging X-ray Polarimetry Explorer (IXPE). The overall polarization degree of 1.8% +/- 0.3% is detected by summing over a large region, assuming circular symmetry for the polarization vectors. The measurements imply an average polarization degree for the synchrotron component of similar to 2.5%, and close to 5% for the X-ray synchrotron-dominated forward shock region. These numbers are based on an assessment of the thermal and nonthermal radiation contributions, for which we used a detailed spatial-spectral model based on Chandra X-ray data. A pixel-by-pixel search for polarization provides a few tentative detections from discrete regions at the similar to 3 sigma confidence level. Given the number of pixels, the significance is insufficient to claim a detection for individual pixels, but implies considerable turbulence on scales smaller than the angular resolution. Cas A's X-ray continuum emission is dominated by synchrotron radiation from regions within less than or similar to 10(17) cm of the forward and reverse shocks. We find that (i) the measured polarization angle corresponds to a radially oriented magnetic field, similar to what has been inferred from radio observations; (ii) the X-ray polarization degree is lower than in the radio band (similar to 5%). Since shock compression should impose a tangential magnetic-field structure, the IXPE results imply that magnetic fields are reoriented within similar to 10(17) cm of the shock. If the magnetic-field alignment is due to locally enhanced acceleration near quasi-parallel shocks, the preferred X-ray polarization angle suggests a size of 3 x 10(16) cm for cells with radial magnetic fields.
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