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Line-Intensity Mapping: 2017 Status Report

Cosmology and Nongalactic Astrophysics (astro-ph.CO) Astrophysics of Galaxies (astro-ph.GA) 0103 physical sciences FOS: Physical sciences [PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph] Astrophysics - Instrumentation and Methods for Astrophysics Astrophysics - Astrophysics of Galaxies 01 natural sciences Instrumentation and Methods for Astrophysics (astro-ph.IM) Astrophysics - Cosmology and Nongalactic Astrophysics
DOI: 10.48550/arxiv.1709.09066 Publication Date: 2017-01-01
Abstract Supplemental Material References Cited by
AUTHORS (48)
Kovetz, Ely D.
Viero, Marco P.
Lidz, Adam
Newburgh, Laura
Rahman, Mubdi
Switzer, E.
Kamionkowski, Marc
Aguirre, James
Alvarez, Marcelo
Bock, James J.
Bond, J. Richard
Bower, Geoffrey
Bradford, C. Matt
Breysse, Patrick C.
Bull, Philip
Chang, Tzu-Ching
Cheng, Yun-Ting
Chung, Dongwoo
Cleary, Kieran
Cooray, Asantha
Crites, Abigail
Croft, Rupert
Doré, Olivier
Eastwood, Michael
Ferrara, Andrea
Fonseca, José
Jacobs, Daniel
Keating, Garrett K.
Lagache, Guilaine
Lakhlani, Gunjan
Liu, Adrian
Moodley, Kavilan
Murray, Norman
Pénin, Aurelie
Popping, Gergoe
Pullen, Anthony
Reichers, Dominik
Saito, Shun
Saliwanchik, B.
Santos, Mario
Somerville, Rachel
Stacey, Gordon
Stein, George
Villaescusa-Navar...
Visbal, Eli
Weltman, Amanda
Wolz, Laura
Zemcov, Michael
ABSTRACT
Following the first two annual intensity mapping workshops at Stanford in March 2016 and Johns Hopkins in June 2017, we report on the recent advances in theory, instrumentation and observation that were presented in these meetings and some of the opportunities and challenges that were identified looking forward. With preliminary detections of CO, [CII], Lya and low-redshift 21cm, and a host of experiments set to go online in the next few years, the field is rapidly progressing on all fronts, with great anticipation for a flood of new exciting results. This current snapshot provides an efficient reference for experts in related fields and a useful resource for nonspecialists. We begin by introducing the concept of line-intensity mapping and then discuss the broad array of science goals that will be enabled, ranging from the history of star formation, reionization and galaxy evolution to measuring baryon acoustic oscillations at high redshift and constraining theories of dark matter, modified gravity and dark energy. After reviewing the first detections reported to date, we survey the experimental landscape, presenting the parameters and capabilities of relevant instruments such as COMAP, mmIMe, AIM-CO, CCAT-p, TIME, CONCERTO, CHIME, HIRAX, HERA, STARFIRE, MeerKAT/SKA and SPHEREx. Finally, we describe recent theoretical advances: different approaches to modeling line luminosity functions, several techniques to separate the desired signal from foregrounds, statistical methods to analyze the data, and frameworks to generate realistic intensity map simulations.<br/>99 pages, 48 figures; Endorsement and any comments welcome; To be submitted to Physics Reports<br/>
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