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arxiv: 2211.09827 · v4 · pith:ODFDNOX6new · submitted 2022-11-17 · 🌌 astro-ph.IM · astro-ph.GA· astro-ph.HE

Line Emission Mapper (LEM): Probing the physics of cosmic ecosystems

Ralph Kraft , Maxim Markevitch , Caroline Kilbourne , Joseph S. Adams , Hiroki Akamatsu , Mohammadreza Ayromlou , Simon R. Bandler , Marco Barbera
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Douglas A. Bennett Anil Bhardwaj Veronica Biffi Dennis Bodewits Akos Bogdan Massimiliano Bonamente Stefano Borgani Graziella Branduardi-Raymont Joel N. Bregman Joseph N. Burchett Jenna Cann Jenny Carter Priyanka Chakraborty Eugene Churazov Robert A. Crain Renata Cumbee Romeel Dave Michael DiPirro Klaus Dolag W. Bertrand Doriese Jeremy Drake William Dunn Megan Eckart Dominique Eckert Stefano Ettori William Forman Massimiliano Galeazzi Amy Gall Efrain Gatuzz Natalie Hell Edmund Hodges-Kluck Caitriona Jackman Amir Jahromi Fred Jennings Christine Jones Philip Kaaret Patrick J. Kavanagh Richard L. Kelley Ildar Khabibullin Chang-Goo Kim Dimitra Koutroumpa Orsolya Kovacs K. D. Kuntz Erwin Lau Shiu-Hang Lee Maurice Leutenegger Sheng-Chieh Lin Carey Lisse Ugo Lo Cicero Lorenzo Lovisari Dan McCammon Sean McEntee Francois Mernier Eric D. Miller Daisuke Nagai Michela Negro Dylan Nelson Jan-Uwe Ness Paul Nulsen Anna Ogorzalek Benjamin D. Oppenheimer Lidia Oskinova Daniel Patnaude Ryan W. Pfeifle Annalisa Pillepich Paul Plucinsky David Pooley Frederick S. Porter Scott Randall Elena Rasia John Raymond Mateusz Ruszkowski Kazuhiro Sakai Arnab Sarkar Manami Sasaki Kosuke Sato Gerrit Schellenberger Joop Schaye Aurora Simionescu Stephen J. Smith James F. Steiner Jonathan Stern Yuanyuan Su Ming Sun Grant Tremblay Nhut Truong James Tutt Eugenio Ursino Sylvain Veilleux Alexey Vikhlinin Stephan Vladutescu-Zopp Mark Vogelsberger Stephen A. Walker Kimberly Weaver Dale M. Weigt Jessica Werk Norbert Werner Scott J. Wolk Congyao Zhang William W. Zhang Irina Zhuravleva John ZuHone
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classification 🌌 astro-ph.IM astro-ph.GAastro-ph.HE
keywords willgalaxiesemissionphysicsformationgalaxylinemedium
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The Line Emission Mapper (LEM) is an X-ray Probe for the 2030s that will answer the outstanding questions of the Universe's structure formation. It will also provide transformative new observing capabilities for every area of astrophysics, and to heliophysics and planetary physics as well. LEM's main goal is a comprehensive look at the physics of galaxy formation, including stellar and black-hole feedback and flows of baryonic matter into and out of galaxies. These processes are best studied in X-rays, and emission-line mapping is the pressing need in this area. LEM will use a large microcalorimeter array/IFU, covering a 30x30' field with 10" angular resolution, to map the soft X-ray line emission from objects that constitute galactic ecosystems. These include supernova remnants, star-forming regions, superbubbles, galactic outflows (such as the Fermi/eROSITA bubbles in the Milky Way and their analogs in other galaxies), the Circumgalactic Medium in the Milky Way and other galaxies, and the Intergalactic Medium at the outskirts and beyond the confines of galaxies and clusters. LEM's 1-2 eV spectral resolution in the 0.2-2 keV band will make it possible to disentangle the faintest emission lines in those objects from the bright Milky Way foreground, providing groundbreaking measurements of the physics of these plasmas, from temperatures, densities, chemical composition to gas dynamics. While LEM's main focus is on galaxy formation, it will provide transformative capability for all classes of astrophysical objects, from the Earth's magnetosphere, planets and comets to the interstellar medium and X-ray binaries in nearby galaxies, AGN, and cooling gas in galaxy clusters. In addition to pointed observations, LEM will perform a shallow all-sky survey that will dramatically expand the discovery space.

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