eXTP -- enhanced X-ray Timing and Polarimetry Mission

S.N. Zhang; M. Feroci; A. Santangelo; Y.W. Dong; H. Feng; F.J. Lu; K.; Nandra; Z.S. Wang; S. Zhang; E. Bozzo; S. Brandt; A. De Rosa; L.J. Gou; M.; Hernanz; M. van der Klis; X.D. Li; Y. Liu; P. Orleanski; G. Pareschi; M.; Pohl; J. Poutanen; J.L. Qu; S. Schanne; L. Stella; P. Uttley; A. Watts; R.X.; Xu; W.F. Yu; J. J. M. in 't Zand; S. Zane; L. Alvarez; L. Amati; L. Baldini,; C. Bambi; S. Basso; S. Bhattacharyya; R. Bellazzini; T. Belloni; P. Bellutti,; S. Bianchi; A. Brez; M. Bursa; V. Burwitz; C. Budtz-Jorgensen; I. Caiazzo; R.; Campana; X.L. Cao; P. Casella; C.Y. Chen; L. Chen; T.X. Chen; Y. Chen; Y.; Chen; Y.P. Chen; M. Civitani; F. Coti Zelati; W. Cui; W.W. Cui; Z.G. Dai; E.; Del Monte; D. De Martino; S. Di Cosimo; S. Diebold; M. Dovciak; I.; Donnarumma; V. Doroshenko; P. Esposito; Y. Evangelista; Y. Favre; P.; Friedrich; F. Fuschino; J.L. Galvez; Z.L. Gao; M. Y. Ge; O. Gevin; D. Goetz,; D.W. Han; J. Heyl; J. Horak; W. Hu; F. Huang; Q.S. Huang; R. Hudec; D.; Huppenkothen; G.L. Israel; A. Ingram; V. Karas; D. Karelin; P.A. Jenke; L.; Ji; T. Kennedy; S. Korpela; D. Kunneriath; C. Labanti; G. Li; X. Li; Z.S. Li,; E.W. Liang; O. Limousin; L. Lin; Z.X. Ling; H.B. Liu; H.W. Liu; Z. Liu; B.; Lu; N. Lund; D. Lai; B. Luo; T. Luo; B. Ma; S. Mahmoodifar; M. Marisaldi; A.; Martindale; N. Meidinger; Y.P. Men; M. Michalska; R. Mignani; M. Minuti; S.; Motta; F. Muleri; J. Neilsen; M. Orlandini; A T. Pan; A. Patruno; E.; Perinati; A. Picciotto; C. Piemonte; M. Pinchera; A. Rachevski; M. Rapisarda,; N. Rea; E.M.R. Rossi; A. Rubini; G. Sala; X.W. Shu; C. Sgro; Z.X. Shen; P.; Soffitta; L.M. Song; G. Spandre; G. Stratta; T.E. Strohmayer; L. Sun; J.; Svoboda; G. Tagliaferri; C. Tenzer; H. Tong; R. Taverna; G. Torok; R.; Turolla; A. Vacchi; J. Wang; J.X. Wang; D. Walton; K. Wang; J.F. Wang; R.J.; Wang; Y.F. Wang; S. S. Weng; J. Wilms; B. Winter; X. Wu; X.F. Wu; S.L. Xiong,; Y.P. Xu; Y.Q. Xue; Z. Yan; S. Yang; X. Yang; Y.J. Yang; F. Yuan; W.M. Yuan,; Y.F. Yuan; G. Zampa; N. Zampa; A. Zdziarski; C. Zhang; C.L. Zhang; L. Zhang,; X. Zhang; Z. Zhang; W.D. Zhang; S.J. Zheng; P. Zhou; X. L. Zhou

arXiv:1607.08823·astro-ph.IM·March 17, 2020

eXTP -- enhanced X-ray Timing and Polarimetry Mission

S.N. Zhang, M. Feroci, A. Santangelo, Y.W. Dong, H. Feng, F.J. Lu, K., Nandra, Z.S. Wang, S. Zhang, E. Bozzo, S. Brandt, A. De Rosa, L.J. Gou, M., Hernanz, M. van der Klis, X.D. Li, Y. Liu, P. Orleanski, G. Pareschi, M., Pohl, J. Poutanen, J.L. Qu, S. Schanne, L. Stella

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TL;DR

eXTP is a comprehensive X-ray observatory designed to study extreme cosmic environments through simultaneous spectral, timing, and polarimetry observations, utilizing advanced instruments to explore neutron stars, black holes, and magnetic systems.

Contribution

The paper introduces the eXTP mission, highlighting its unique combination of instruments for simultaneous spectral-timing-polarimetry studies, and details its scientific goals and international collaboration.

Findings

01

Design of advanced instruments for X-ray timing and polarimetry.

02

Capability to study extreme matter conditions in neutron stars and black holes.

03

International collaboration enhancing scientific potential.

Abstract

eXTP is a science mission designed to study the state of matter under extreme conditions of density, gravity and magnetism. Primary targets include isolated and binary neutron stars, strong magnetic field systems like magnetars, and stellar-mass and supermassive black holes. The mission carries a unique and unprecedented suite of state-of-the-art scientific instruments enabling for the first time ever the simultaneous spectral-timing-polarimetry studies of cosmic sources in the energy range from 0.5-30 keV (and beyond). Key elements of the payload are: the Spectroscopic Focusing Array (SFA) - a set of 11 X-ray optics for a total effective area of about 0.9 m^2 and 0.6 m^2 at 2 keV and 6 keV respectively, equipped with Silicon Drift Detectors offering <180 eV spectral resolution; the Large Area Detector (LAD) - a deployable set of 640 Silicon Drift Detectors, for a total effective area…

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