Abstract
Transitional millisecond pulsars are an emerging class of sources that link low-mass X-ray binaries to millisecond radio pulsars in binary systems. These pulsars alternate between a radio pulsar state and an active low-luminosity X-ray disc state. During the active state, these sources exhibit two distinct emission modes (high and low) that alternate unpredictably, abruptly, and incessantly. X-ray to optical pulsations are observed only during the high mode. The root cause of this puzzling behaviour remains elusive. This paper presents the results of the most extensive multi-wavelength campaign ever conducted on the transitional pulsar prototype, PSR J1023+0038, covering from the radio to X-rays. The campaign was carried out over two nights in June 2021 and involved 12 different telescopes and instruments, including XMM-Newton, HST, VLT/FORS2 (in polarimetric mode), ALMA, VLA, and FAST. By modelling the broadband spectral energy distributions in both emission modes, we show that the mode switches are caused by changes in the innermost region of the accretion disc. These changes trigger the emission of discrete mass ejections, which occur on top of a compact jet, as testified by the detection of at least one short-duration millimetre flare with ALMA at the high-to-low mode switch. The pulsar is subsequently re-enshrouded, completing our picture of the mode switches.
Original language | English |
---|---|
Article number | A30 |
Number of pages | 25 |
Journal | Astronomy and Astrophysics |
Volume | 677 |
DOIs | |
Publication status | Published - 1-Sept-2023 |
Keywords
- Accretion
- Accretion disks
- Polarization
- Pulsars: general
- Pulsars: individual: PSR J1023+0038
- Stars: jets
- Stars: neutron
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- 10.1051/0004-6361/202346418Licence: CC BY
- Matter ejections behind the highs and lows of the transitional millisecond pulsar PSR J1023+0038Final publisher's version, 6.81 MBLicence: CC BY
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In: Astronomy and Astrophysics, Vol. 677, A30, 01.09.2023.
Research output: Contribution to journal › Article › Academic › peer-review
TY - JOUR
T1 - Matter ejections behind the highs and lows of the transitional millisecond pulsar PSR J1023+0038
AU - Baglio, M. C.
AU - Coti Zelati, F.
AU - Campana, S.
AU - Busquet, G.
AU - D' Avanzo, P.
AU - Giarratana, S.
AU - Giroletti, M.
AU - Ambrosino, F.
AU - Crespi, S.
AU - Miraval Zanon, A.
AU - Hou, X.
AU - Russell, D. M.
AU - Torres, D. F.
AU - Alabarta, K.
AU - Casella, P.
AU - Covino, S.
AU - Bramich, D. M.
AU - De Martino, D.
AU - Méndez, M.
AU - Motta, S. E.
AU - Papitto, A.
AU - Saikia, P.
AU - Vincentelli, F.
N1 - Funding Information: We thank the referee for helpful comments. We thank the ALMA staff, particularly Edwige Chapillon, for the help with scheduling the observations; the NICER PI, Keith Gendreau, for approving our ToO request and the operation team for executing the observations; Brad Cenko and the Swift duty scientists and science planners, for making the Swift Target of Opportunity observation possible; Nando Patat, for the help with scheduling the NTT/SOFI observations; Giulia Illiano, for providing checks on timing analysis of X-ray data; Rob Fender, for providing useful notebooks on synchrotron radiation from variable radio sources; Nanda Rea, for helpful comments on the manuscript. The results reported in this study are based on observations obtained with XMM-Newton (PI: Campana); NuSTAR (PI: Campana); the NASA/ESA Hubble Space Telescope (obtained from the Space Telescope Science Institute, which is operated by the Association of Universities for Research in Astronomy, Inc., under NASA contract NAS 5–26555. These observations are associated with program 16061; PI: Campana); FAST (PI: Hou); the REM Telescope, INAF Chile (PI: Baglio). Part of the observations presented in this study were obtained at the European Southern Observatory under ESO programme 107.22RK.001 (PI: Baglio). This paper makes also use of the following ALMA data: ADS/JAO.ALMA#2019.A.00036.S (PI: Coti Zelati). XMM-Newton is an European Space Agency (ESA) science mission with instruments and contributions directly funded by ESA member states and NASA. NuSTAR is a project led by the California Institute of Technology, managed by the Jet Propulsion Laboratory and funded by NASA. The National Radio Astronomy Observatory is a facility of the National Science Foundation operated under cooperative agreement by Associated Universities, Inc. FAST is a Chinese national mega-science facility, operated by National Astronomical Observatories of the Chinese Academy of Sciences (NAOC). NICER is a 0.2–12 keV X-ray telescope operating on the International Space Station, funded by NASA. The Neil Gehrels Swift Observatory is a NASA/UK/ASI mission. ALMA is a partnership of ESO (representing its member states), NSF (USA) and NINS (Japan), together with NRC (Canada), MOST and ASIAA (Taiwan), and KASI (Republic of Korea), in cooperation with the Republic of Chile. The Joint ALMA Observatory is operated by ESO, AUI/NRAO and NAOJ. The XMM-Newton SAS is developed and maintained by the Science Operations Centre at the European Space Astronomy Centre. The NuSTAR Data Analysis Software (NuSTARDAS) is jointly developed by the ASI Science Data Center (ASDC, Italy) and the California Institute of Technology (Caltech, USA). The data that support the findings of this study are publicly available at their respective online archive repositories (XMM-Newton: http://nxsa.esac.esa.int/nxsa-web/ ; NICER: https://heasarc.gsfc.nasa.gov/FTP/nicer/data/obs ; NuSTAR: https://heasarc.gsfc.nasa.gov/W3Browse/all/numaster.html ; Swift: https://heasarc.gsfc.nasa.gov/cgi-bin/W3Browse/w3browse.pl ; HST: http://hst.esac.esa.int/ehst/ ; VLA: https://data.nrao.edu/portal/ ; VLT/FORS2: http://archive.eso.org/scienceportal/ ; ALMA: http://almascience.nrao.edu/aq/ ; REM: http://ross.oas.inaf.it/REMDB/public.php ; NTT/SOFI: http://archive.eso.org/scienceportal/ ). FAST data can be accessed through the FAST Data Center: https://fast.bao.ac.cn/cms/article/11/ . F.C.Z. is supported by a Ramón y Cajal fellowship (grant agreement RYC2021-030888-I) and Catalan grant SGR-Cat 2021 (PI: Graber). F.C.Z. and D.F.T. are supported by the program Unidad de Excelencia María de Maeztu CEX2020-001058-M. F.C.Z., S.C.a., P.D.’A., F.A., P.C., D.d.M. and A.P. acknowledge financial support from INAF-Fundamental research astrophysics project “Uncovering the optical beat of the fastest magnetised neutron stars” (FANS; PI: AP). S.C.a., S.C.o. and P.D.’A. acknowledge support from ASI grant I/004/11/5. G.B. acknowledges support from the PID2020-117710GB-I00 grant funded by MCIN/ AEI /10.13039/501100011033. A.M.Z. is supported by PRIN-MIUR 2017 UnIAM (Unifying Isolated and Accreting Magnetars, PI S. Mereghetti). X.H. is supported by the National Natural Science Foundation of China through grant No. 12041303. J.L. is supported by the National Natural Science Foundation of China through grant No.12273038. D.d.M. and A.P. acknowledge financial support from the Italian Space Agency (ASI) and National Institute for Astrophysics (INAF) under agreements ASI-INAF I/037/12/0 and ASI-INAF n.2017- 14-H.0, from INAF ‘Sostegno alla ricerca scientifica main streams dell‘INAF’, Presidential Decree 43/2018 and from INAF ‘SKA/CTA projects’, Presidential Decree 70/2016. D.M.R. and D.M.B. acknowledge the support of the NYU Abu Dhabi Research Enhancement Fund under grant RE124. D.F.T. is supported by the grants PID2021-124581OB-I00 funded by MCIN/AEI/10.13039/501100011033, 2021SGR00426 of the Generalitat de Catalunya and by MCIN with funding from European Union NextGeneration EU (PRTR-C17.I1). M.M. acknowledges the research programme Athena with project number 184.034.002, which is (partly) financed by the Dutch Research Council (NWO) and thanks the Team Meeting at the International Space Science Institute (Bern) for fruitful discussions. F.M.V. acknowledges support from the Spanish Ministry of Science for the grant PID2020-120323GB-I00 and for the FJC2020-043334-I grant financed by MCIN/AEI/10.13039/501100011033 and Next Generation EU/PRTR. This work was also partially supported by the COST Action ‘PHAROS’ (CA 16124). Software: APLPY v.2.1.0 (Robitaille & Bressert 2012); Astropy v.5.3 (Astropy Collaboration 2013, 2018); astropy:2022; CASA v.6.5.2 (CASA Team et al. 2022); CIAO v.4.15 and CALDB v.4.10.4 (Fruscione et al. 2006); CORNER PLOT v.2.2.1 (Foreman-Mackey 2016); DAOPHOT (Stetson 1987), part of the Starlink software (Currie et al. 2014; Berry et al. 2022); HEASOFT v.6.31.1 (NASA High Energy Astrophysics Science Archive Research Center (HEASARC) 2014); IRAF v.2.17 (https://github.com/iraf-community/iraf); LINMIXERR (https://github.com/jmeyers314/linmix); MATPLOTLIB v.3.7.1 (Hunter 2007); NICERDAS v.10a; NUMPY v.1.24.0 (Harris et al. 2020); NUSTARDAS, v.2.1.2; PRESTO v.4.0 ( https://github.com/scottransom/presto ); SAOImageDS9 v.8.4 (Joye & Mandel 2003); SAS v.20.0 (Gabriel et al. 2004); SCIPY v.1.10.1 (Virtanen et al. 2020); SRPAstro v.4.8.0 (https://pypi.org/project/SRPAstro/); XRONOS v.5.22 (Stella & Angelini 1992); XSPEC v.12.13.0g (Arnaud 1996). Upon request, the corresponding authors (M.C.B. and F.C.Z.) will provide the code used to produce the figures. − Publisher Copyright: © 2023 The Authors.
PY - 2023/9/1
Y1 - 2023/9/1
N2 - Transitional millisecond pulsars are an emerging class of sources that link low-mass X-ray binaries to millisecond radio pulsars in binary systems. These pulsars alternate between a radio pulsar state and an active low-luminosity X-ray disc state. During the active state, these sources exhibit two distinct emission modes (high and low) that alternate unpredictably, abruptly, and incessantly. X-ray to optical pulsations are observed only during the high mode. The root cause of this puzzling behaviour remains elusive. This paper presents the results of the most extensive multi-wavelength campaign ever conducted on the transitional pulsar prototype, PSR J1023+0038, covering from the radio to X-rays. The campaign was carried out over two nights in June 2021 and involved 12 different telescopes and instruments, including XMM-Newton, HST, VLT/FORS2 (in polarimetric mode), ALMA, VLA, and FAST. By modelling the broadband spectral energy distributions in both emission modes, we show that the mode switches are caused by changes in the innermost region of the accretion disc. These changes trigger the emission of discrete mass ejections, which occur on top of a compact jet, as testified by the detection of at least one short-duration millimetre flare with ALMA at the high-to-low mode switch. The pulsar is subsequently re-enshrouded, completing our picture of the mode switches.
AB - Transitional millisecond pulsars are an emerging class of sources that link low-mass X-ray binaries to millisecond radio pulsars in binary systems. These pulsars alternate between a radio pulsar state and an active low-luminosity X-ray disc state. During the active state, these sources exhibit two distinct emission modes (high and low) that alternate unpredictably, abruptly, and incessantly. X-ray to optical pulsations are observed only during the high mode. The root cause of this puzzling behaviour remains elusive. This paper presents the results of the most extensive multi-wavelength campaign ever conducted on the transitional pulsar prototype, PSR J1023+0038, covering from the radio to X-rays. The campaign was carried out over two nights in June 2021 and involved 12 different telescopes and instruments, including XMM-Newton, HST, VLT/FORS2 (in polarimetric mode), ALMA, VLA, and FAST. By modelling the broadband spectral energy distributions in both emission modes, we show that the mode switches are caused by changes in the innermost region of the accretion disc. These changes trigger the emission of discrete mass ejections, which occur on top of a compact jet, as testified by the detection of at least one short-duration millimetre flare with ALMA at the high-to-low mode switch. The pulsar is subsequently re-enshrouded, completing our picture of the mode switches.
KW - Accretion
KW - Accretion disks
KW - Polarization
KW - Pulsars: general
KW - Pulsars: individual: PSR J1023+0038
KW - Stars: jets
KW - Stars: neutron
UR - http://www.scopus.com/inward/record.url?scp=85170826561&partnerID=8YFLogxK
U2 - 10.1051/0004-6361/202346418
DO - 10.1051/0004-6361/202346418
M3 - Article
AN - SCOPUS:85170826561
SN - 0004-6361
VL - 677
JO - Astronomy and Astrophysics
JF - Astronomy and Astrophysics
M1 - A30
ER -