TY - JOUR
T1 - Advances in Understanding High-Mass X-ray Binaries with INTEGRALand Future Directions
AU - Kretschmar, Peter
AU - Fürst, Felix
AU - Sidoli, Lara
AU - Bozzo, Enrico
AU - Alfonso-Garzón, Julia
AU - Bodaghee, Arash
AU - Chaty, Sylvain
AU - Chernyakova, Masha
AU - Ferrigno, Carlo
AU - Manousakis, Antonios
AU - Negueruela, Ignacio
AU - Postnov, Konstantin
AU - Paizis, Adamantia
AU - Reig, Pablo
AU - Rodes-Roca, José Joaquín
AU - Tsygankov, Sergey
AU - Bird, Antony J.
AU - Bissinger né Kühnel, Matthias
AU - Blay, Pere
AU - Caballero, Isabel
AU - Coe, Malcolm J.
AU - Domingo, Albert
AU - Doroshenko, Victor
AU - Ducci, Lorenzo
AU - Falanga, Maurizio
AU - Grebenev, Sergei A.
AU - Grinberg, Victoria
AU - Hemphill, Paul
AU - Kreykenbohm, Ingo
AU - Kreykenbohm né Fritz, Sonja
AU - Li, Jian
AU - Lutovinov, Alexander A.
AU - Martínez-Núñez, Silvia
AU - Mas-Hesse, J. Miguel
AU - Masetti, Nicola
AU - McBride, Vanessa A.
AU - Neronov, Andrii
AU - Pottschmidt, Katja
AU - Rodriguez, Jérôme
AU - Romano, Patrizia
AU - Rothschild, Richard E.
AU - Santangelo, Andrea
AU - Sguera, Vito
AU - Staubert, Rüdiger
AU - Tomsick, John A.
AU - Torrejón, José Miguel
AU - Torres, Diego F.
AU - Walter, Roland
AU - Wilms, Jörn
AU - Wilson-Hodge, Colleen A.
AU - Zhang, Shu
N1 - Funding Information:
Based on observations with INTEGRAL, an ESA project with instruments and a science data center funded by ESA member states (especially the PI countries: Denmark, France, Germany, Italy, Spain, and Switzerland), the Czech Republic, and Poland and with the participation of Russia and the USA. The INTEGRALteams in the participating countries acknowledge the continuous support from their space agencies and funding organizations: the Italian Space Agency ASI (via different agreements including the latest one, 2019-35HH, and the ASI-INAF agreement 2017-14-H.0), the French Centre national d’études spatiales (CNES), the Russian Foundation for Basic Research (KP, 19-02-00790), the Russian Science Foundation (ST, VD, AL; 19-12-00423), the Spanish State Research Agency (via different grants including ESP2017-85691-P, ESP2017-87676-C5-1-R and Unidad de Excelencia María de Maeztu – CAB MDM-2017-0737). IN is partially supported by the Spanish Government under grant PGC2018-093741-B-C21/C22 (MICIU/AEI/FEDER, UE). LD acknowledges grant 50 OG 1902.
Funding Information:
Based on observations with INTEGRAL, an ESA project with instruments and a science data center funded by ESA member states (especially the PI countries: Denmark, France, Germany, Italy, Spain, and Switzerland), the Czech Republic, and Poland and with the participation of Russia and the USA. The INTEGRALteams in the participating countries acknowledge the continuous support from their space agencies and funding organizations: the Italian Space Agency ASI (via different agreements including the latest one, 2019-35HH, and the ASI-INAF agreement 2017-14-H.0), the French Centre national d??tudes spatiales (CNES), the Russian Foundation for Basic Research (KP, 19-02-00790), the Russian Science Foundation (ST, VD, AL; 19-12-00423), the Spanish State Research Agency (via different grants including ESP2017-85691-P, ESP2017-87676-C5-1-R and Unidad de Excelencia Mar?a de Maeztu ? CAB MDM-2017-0737). IN is partially supported by the Spanish Government under grant PGC2018-093741-B-C21/C22 (MICIU/AEI/FEDER, UE). LD acknowledges grant 50 OG 1902.
Publisher Copyright:
© 2020
PY - 2019/12
Y1 - 2019/12
N2 - High mass X-ray binaries are among the brightest X-ray sources in the Milky Way, as well as in nearby Galaxies. Thanks to their highly variable emissions and complex phenomenology, they have attracted the interest of the high energy astrophysical community since the dawn of X-ray Astronomy. In more recent years, they have challenged our comprehension of physical processes in many more energy bands, ranging from the infrared to very high energies. In this review, we provide a broad but concise summary of the physical processes dominating the emission from high mass X-ray binaries across virtually the whole electromagnetic spectrum. These comprise the interaction of stellar winds with the high gravitational and magnetic fields of compact objects, the behaviour of matter under extreme magnetic and gravity conditions, and the perturbation of the massive star evolutionary processes by presence in a binary system. We highlight the role of the INTEGRAL mission in the discovery of many of the most interesting objects in the high mass X-ray binary class and its contribution in reviving the interest for these sources over the past two decades. We show how the INTEGRAL discoveries have not only contributed to significantly increase the number of high mass X-ray binaries known, thus advancing our understanding of the population as a whole, but also have opened new windows of investigation that stimulated the multi-wavelength approach nowadays common in most astrophysical research fields. We conclude the review by providing an overview of future facilities being planned from the X-ray to the very high energy domain that will hopefully help us in finding an answer to the many questions left open after more than 18 years of INTEGRAL scientific observations.
AB - High mass X-ray binaries are among the brightest X-ray sources in the Milky Way, as well as in nearby Galaxies. Thanks to their highly variable emissions and complex phenomenology, they have attracted the interest of the high energy astrophysical community since the dawn of X-ray Astronomy. In more recent years, they have challenged our comprehension of physical processes in many more energy bands, ranging from the infrared to very high energies. In this review, we provide a broad but concise summary of the physical processes dominating the emission from high mass X-ray binaries across virtually the whole electromagnetic spectrum. These comprise the interaction of stellar winds with the high gravitational and magnetic fields of compact objects, the behaviour of matter under extreme magnetic and gravity conditions, and the perturbation of the massive star evolutionary processes by presence in a binary system. We highlight the role of the INTEGRAL mission in the discovery of many of the most interesting objects in the high mass X-ray binary class and its contribution in reviving the interest for these sources over the past two decades. We show how the INTEGRAL discoveries have not only contributed to significantly increase the number of high mass X-ray binaries known, thus advancing our understanding of the population as a whole, but also have opened new windows of investigation that stimulated the multi-wavelength approach nowadays common in most astrophysical research fields. We conclude the review by providing an overview of future facilities being planned from the X-ray to the very high energy domain that will hopefully help us in finding an answer to the many questions left open after more than 18 years of INTEGRAL scientific observations.
KW - accretion
KW - gamma rays: observations
KW - INTEGRAL observatory
KW - pulsars: general
KW - stars: neutron
KW - X-rays: binaries
UR - http://www.scopus.com/inward/record.url?scp=85090914357&partnerID=8YFLogxK
U2 - 10.1016/j.newar.2020.101546
DO - 10.1016/j.newar.2020.101546
M3 - Article
AN - SCOPUS:85090914357
SN - 1387-6473
VL - 86
JO - New Astronomy Reviews
JF - New Astronomy Reviews
M1 - 101546
ER -