Dark Matter Science in the Era of LSST

Bechtol Keith,Drlica-Wagner Alex,Abazajian Kevork N.,Abidi Muntazir,Adhikari Susmita,Ali-Haïmoud Yacine,Annis James,Ansarinejad Behzad,Armstrong Robert,Asorey Jacobo,Baccigalupi Carlo,Banerjee Arka,Banik Nilanjan,Bennett Charles,Beutler Florian,Bird Simeon,Birrer Simon,Biswas Rahul,Biviano Andrea,Blazek Jonathan,Boddy Kimberly K.,Bonaca Ana,Borrill Julian,Bose Sownak,Bovy Jo,Frye Brenda,Brooks Alyson M.,Buckley Matthew R.,Buckley-Geer Elizabeth,Bulbul Esra, Burchat Patricia R.,Burgess Cliff,Calore Francesca,Caputo Regina,Castorina Emanuele,Chang Chihway, Chapline George,Charles Eric,Chen Xingang,Clowe Douglas,Cohen-Tanugi Johann,Comparat Johan,Croft Rupert A. C.,Cuoco Alessandro,Cyr-Racine Francis-Yan,D'Amico Guido,Davis Tamara M,Dawson William A.,de la Macorra Axel,Di Valentino Eleonora,Rivero Ana Díaz, Digel Seth,Dodelson Scott,Doré Olivier,Dvorkin Cora,Eckner Christopher,Ellison John,Erkal Denis,Farahi Arya,Fassnacht Christopher D.,Ferreira Pedro G.,Flaugher Brenna,Foreman Simon,Friedrich Oliver,Frieman Joshua,García-Bellido Juan,Gawiser Eric,Gerbino Martina,Giannotti Maurizio, Gill Mandeep S. S.,Gluscevic Vera,Golovich Nathan,Gontcho Satya Gontcho A,González-Morales Alma X.,Grin Daniel,Gruen Daniel,Hearin Andrew P.,Hendel David,Hezaveh Yashar D.,Hirata Christopher M.,Hložek Renee,Horiuchi Shunsaku,Jain Bhuvnesh,Jee M. James,Jeltema Tesla E.,Kamionkowski Marc,Kaplinghat Manoj,Keeley Ryan E.,Keeton Charles R.,Khatri Rishi,Koposov Sergey E.,Koushiappas Savvas M.,Kovetz Ely D.,Lahav Ofer,Lam Casey,Lee Chien-Hsiu,Li Ting S.,Liguori Michele,Lin Tongyan,Lisanti Mariangela,LoVerde Marilena,Lu Jessica R.,Mandelbaum Rachel,Mao Yao-Yuan,McDermott Samuel D.,McNanna Mitch,Medford Michael,Meerburg P. Daniel,Meyer Manuel,Mirbabayi Mehrdad,Mishra-Sharma Siddharth,Marc Moniez,More Surhud,Moustakas John,Muñoz Julian B.,Murgia Simona, Myers Adam D.,Nadler Ethan O.,Necib Lina,Newburgh Laura,Newman Jeffrey A.,Nord Brian,Nourbakhsh Erfan, Nuss Eric,O'Connor Paul,Pace Andrew B.,Padmanabhan Hamsa,Palmese Antonella,Peiris Hiranya V.,Peter Annika H. G.,Piacentni Francesco,Piacentini Francesco,Plazas Andrés,Polin Daniel A.,Prakash Abhishek,Prescod-Weinstein Chanda,Read Justin I., Ritz Steven,Robertson Brant E.,Rose Benjamin,Rosenfeld Rogerio, Rossi Graziano,Samushia Lado,Sánchez Javier,Sánchez-Conde Miguel A.,Schaan Emmanuel,Sehgal Neelima,Senatore Leonardo,Seo Hee-Jong,Shafieloo Arman,Shan Huanyuan,Shipp Nora,Simon Joshua D., Simon Sara,Slatyer Tracy R.,Slosar Anže,Sridhar Srivatsan, Stebbins Albert,Straniero Oscar,Strigari Louis E.,Tait Tim M. P.,Tollerud Erik,Troxel M. A.,Tyson J. Anthony,Uhlemann Cora,Urenña-López L. Arturo,Verma Aprajita,Vilalta Ricardo,Walter Christopher W.,Wang Mei-Yu,Watson Scott,Wechsler Risa H.,Wittman David,Xu Weishuang,Yanny Brian,Young Sam, Yu Hai-Bo,Zaharijas Gabrijela,Zentner Andrew R.,Zuntz Joe

Bulletin of the American Astronomical Society（2019）

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摘要

Astrophysical observations currently provide the only robust, empirical measurements of dark matter. In the coming decade, astrophysical observations will guide other experimental efforts, while simultaneously probing unique regions of dark matter parameter space. This white paper summarizes astrophysical observations that can constrain the fundamental physics of dark matter in the era of LSST. We describe how astrophysical observations will inform our understanding of the fundamental properties of dark matter, such as particle mass, self-interaction strength, non-gravitational interactions with the Standard Model, and compact object abundances. Additionally, we highlight theoretical work and experimental/observational facilities that will complement LSST to strengthen our understanding of the fundamental characteristics of dark matter.

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dark matter

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