%0 Unpublished work
%T Dark Matter Science in the Era of LSST
%+ Laboratoire d'Annecy-le-Vieux de Physique Théorique (LAPTH)
%+ Laboratoire Univers et Particules de Montpellier (LUPM)
%+ Laboratoire de l'Accélérateur Linéaire (LAL)
%A Bechtol, Keith
%A Drlica-Wagner, Alex
%A Abazajian, Kevork N.
%A Abidi, Muntazir
%A Adhikari, Susmita
%A Ali-Haïmoud, Yacine
%A Annis, James
%A Ansarinejad, Behzad
%A Armstrong, Robert
%A Asorey, Jacobo
%A Baccigalupi, Carlo
%A Banerjee, Arka
%A Banik, Nilanjan
%A Bennett, Charles
%A Beutler, Florian
%A Bird, Simeon
%A Birrer, Simon
%A Biswas, Rahul
%A Biviano, Andrea
%A Blazek, Jonathan
%A Boddy, Kimberly K.
%A Bonaca, Ana
%A Borrill, Julian
%A Bose, Sownak
%A Bovy, Jo
%A Frye, Brenda
%A Brooks, Alyson M.
%A Buckley, Matthew R.
%A Buckley-Geer, Elizabeth
%A Bulbul, Esra
%A Burchat, Patricia R.
%A Burgess, Cliff
%A Calore, Francesca
%A Caputo, Regina
%A Castorina, Emanuele
%A Chang, Chihway
%A Chapline, George
%A Charles, Eric
%A Chen, Xingang
%A Clowe, Douglas
%A Cohen-Tanugi, Johann
%A Comparat, Johan
%A Croft, Rupert A.C.
%A Cuoco, Alessandro
%A Cyr-Racine, Francis-Yan
%A d'Amico, Guido
%A Davis, Tamara M.
%A Dawson, William A.
%A de La Macorra, Axel
%A Di Valentino, Eleonora
%A Rivero, Ana Díaz
%A Digel, Seth
%A Dodelson, Scott
%A Doré, Olivier
%A Dvorkin, Cora
%A Eckner, Christopher
%A Ellison, John
%A Erkal, Denis
%A Farahi, Arya
%A Fassnacht, Christopher D.
%A Ferreira, Pedro G.
%A Flaugher, Brenna
%A Foreman, Simon
%A Friedrich, Oliver
%A Frieman, Joshua
%A García-Bellido, Juan
%A Gawiser, Eric
%A Gerbino, Martina
%A Giannotti, Maurizio
%A Gill, Mandeep S.S.
%A Gluscevic, Vera
%A Golovich, Nathan
%A Gontcho, Satya Gontcho A.
%A Gonzalez-Morales, Alma X.
%A Grin, Daniel
%A Gruen, Daniel
%A Hearin, Andrew P.
%A Hendel, David
%A Hezaveh, Yashar D.
%A Hirata, Christopher M.
%A Hlozek, Renee
%A Horiuchi, Shunsaku
%A Jain, Bhuvnesh
%A Jee, M. James
%A Jeltema, Tesla E.
%A Kamionkowski, Marc
%A Kaplinghat, Manoj
%A Keeley, Ryan E.
%A Keeton, Charles R.
%A Khatri, Rishi
%A Koposov, Sergey E.
%A Koushiappas, Savvas M.
%A Kovetz, Ely D.
%A Lahav, Ofer
%A Lam, Casey
%A Lee, Chien-Hsiu
%A Li, Ting S.
%A Liguori, Michele
%A Lin, Tongyan
%A Lisanti, Mariangela
%A Loverde, Marilena
%A Lu, Jessica R.
%A Mandelbaum, Rachel
%A Mao, Yao-Yuan
%A Mcdermott, Samuel D.
%A Mcnanna, Mitch
%A Medford, Michael
%A Meerburg, P. Daniel
%A Meyer, Manuel
%A Mirbabayi, Mehrdad
%A Mishra-Sharma, Siddharth
%A Moniez, Marc
%A More, Surhud
%A Moustakas, John
%A Munoz, Julian B.
%A Murgia, Simona
%A Myers, Adam D.
%A Nadler, Ethan O.
%A Necib, Lina
%A Newburgh, Laura
%A Newman, Jeffrey A.
%A Nord, Brian
%A Nourbakhsh, Erfan
%A Nuss, Eric
%A O'Connor, Paul
%A Pace, Andrew B.
%A Padmanabhan, Hamsa
%A Palmese, Antonella
%A Peiris, Hiranya V.
%A Peter, Annika H.G.
%A Piacentni, Francesco
%A Plazas, Andres
%A Polin, Daniel A.
%A Prakash, Abhishek
%A Prescod-Weinstein, Chanda
%A Read, Justin I.
%A Ritz, Steven
%A Robertson, Brant E.
%A Rose, Benjamin
%A Rosenfeld, Rogerio
%A Rossi, Graziano
%A Samushia, Lado
%A Sanchez, Javier
%A Sanchez-Conde, Miguel A.
%A Schaan, Emmanuel
%A Sehgal, Neelima
%A Senatore, Leonardo
%A Seo, Hee-Jong
%A Shafieloo, Arman
%A Shan, Huanyuan
%A Shipp, Nora
%A Simon, Joshua D.
%A Simon, Sara
%A Slatyer, Tracy R.
%A Slosar, Anze
%A Sridhar, Srivatsan
%A Stebbins, Albert
%A Straniero, Oscar
%A Strigari, Louis E.
%A Tait, Tim M.P.
%A Tollerud, Erik
%A Troxel, M.A.
%A Tyson, J. Anthony
%A Uhlemann, Cora
%A Urenna-Lopez, L. Arturo
%A Verma, Aprajita
%A Vilalta, Ricardo
%A Walter, Christopher W.
%A Wang, Mei-Yu
%A Watson, Scott
%A Wechsler, Risa H.
%A Wittman, David
%A Xu, Weishuang
%A Yanny, Brian
%A Young, Sam
%A Yu, Hai-Bo
%A Zaharijas, Gabrijela
%A Zentner, Andrew R.
%A Zuntz, Joe
%8 2019-04-03
%D 2019
%Z 1903.04425
%K dark matter: parameter space
%Z Physics [physics]/Astrophysics [astro-ph]
%Z Physics [physics]/High Energy Physics - Experiment [hep-ex]Preprints, Working Papers, ...
%X 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.
%G English
%L hal-02088552
%U https://hal.science/hal-02088552
%~ IN2P3
%~ UNIV-SAVOIE
%~ UGA
%~ LAL
%~ CNRS
%~ UNIV-PSUD
%~ LAPTH
%~ LUPM
%~ UNIV-PARIS-SACLAY
%~ UNIV-PSUD-SACLAY
%~ UNIV-MONTPELLIER
%~ LUPM_EMA
%~ TEST-HALCNRS
%~ USMB-COMUE
%~ UM-2015-2021