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Atacama Cosmology Telescope: Component-separated maps of CMB temperature and the thermal Sunyaev-Zel'dovich effect
| Indexado |
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| DOI | 10.1103/PHYSREVD.102.023534 | ||
| Año | 2020 | ||
| Tipo | artículo de investigación |
Citas Totales
Autores Afiliación Chile
Instituciones Chile
% Participación
Internacional
Autores
Afiliación Extranjera
Instituciones
Extranjeras
Abstract
Optimal analyses of many signals in the cosmic microwave background (CMB) require map-level extraction of individual components in the microwave sky, rather than measurements at the power spectrum level alone. To date, nearly all map-level component separation in CMB analyses has been performed exclusively using satellite data. In this paper, we implement a component separation method based on the internal linear combination (ILC) approach which we have designed to optimally account for the anisotropic noise (in the 2D Fourier domain) often found in ground-based CMB experiments. Using this method, we combine multifrequency data from the Planck satellite and the Atacama Cosmology Telescope Polarimeter (ACTPol) to construct the first wide-area (approximate to 2100 sq. deg.), arcminute-resolution component-separated maps of the CMB temperature anisotropy and the thermal Sunyaev-Zel'dovich (tSZ) effect sourced by the inverse-Compton scattering of CMB photons off hot, ionized gas. Our ILC pipeline allows for explicit deprojection of various contaminating signals, including a modified blackbody approximation of the cosmic infrared background (CIB) spectral energy distribution. The cleaned CMB maps will be a useful resource for CMB lensing reconstruction, kinematic SZ cross-correlations, and primordial nonGaussianity studies. The tSZ maps will be used to study the pressure profiles of galaxies, groups, and clusters through cross-correlations with halo catalogs, with dust contamination controlled via CIB deprojection. The data products described in this paper are available on LAMBDA.
| Ord. | Autor | Género | Institución - País |
|---|---|---|---|
| 1 | Madhavacheril, Mathew S. | Hombre |
Perimeter Inst Theoret Phys - Canadá
Princeton Univ - Estados Unidos |
| 2 | Hill, J. Colin | - |
Columbia Univ - Estados Unidos
Flatiron Inst - Estados Unidos Inst Adv Study - Estados Unidos |
| 3 | Naess, Sigurd K. | Hombre |
Flatiron Inst - Estados Unidos
|
| 4 | Addison, Graeme E. | Hombre |
Johns Hopkins Univ - Estados Unidos
|
| 5 | Aiola, S. | Mujer |
Flatiron Inst - Estados Unidos
|
| 6 | Baildon, Taylor | Hombre |
UNIV MICHIGAN - Estados Unidos
|
| 7 | Battaglia, Nicholas | Hombre |
CORNELL UNIV - Estados Unidos
|
| 8 | Bean, Rachel | Mujer |
CORNELL UNIV - Estados Unidos
|
| 9 | Bond, J. R. | Hombre |
UNIV TORONTO - Canadá
|
| 10 | Calabrese, E. | Mujer |
Cardiff Univ - Reino Unido
|
| 11 | Calafut, V | Mujer |
CORNELL UNIV - Estados Unidos
|
| 12 | Choi, Steve K. | Hombre |
CORNELL UNIV - Estados Unidos
|
| 13 | Darwish, Omar | Hombre |
UNIV CAMBRIDGE - Reino Unido
|
| 14 | Datta, Rahul | Hombre |
UNIV MICHIGAN - Estados Unidos
|
| 15 | Devlin, Mark | Hombre |
UNIV PENN - Estados Unidos
|
| 16 | Dunkley, Jo | Mujer |
Princeton Univ - Estados Unidos
|
| 17 | DUNNER-PLANELLA, ROLANDO | Hombre |
Pontificia Universidad Católica de Chile - Chile
|
| 18 | Ferraro, Simone | Mujer |
Lawrence Berkeley Natl Lab - Estados Unidos
|
| 19 | Gallardo, Pedro | Hombre |
CORNELL UNIV - Estados Unidos
|
| 20 | Gluscevic, V | Mujer |
Univ Southern Calif - Estados Unidos
|
| 21 | Halpern, Mark | Hombre |
UNIV BRITISH COLUMBIA - Canadá
|
| 22 | Han, Dongwon | - |
Flatiron Inst - Estados Unidos
SUNY Stony Brook - Estados Unidos |
| 23 | Hasselfield, Matthew | Hombre |
Flatiron Inst - Estados Unidos
|
| 24 | Hilton, Gene C. | Hombre |
Univ KwaZulu Natal - República de Sudáfrica
|
| 25 | Hincks, A. D. | Hombre |
UNIV TORONTO - Canadá
|
| 26 | Hlozek, R. | Mujer |
UNIV TORONTO - Canadá
|
| 27 | Ho, Shuay-Pwu P. | - |
Princeton Univ - Estados Unidos
|
| 28 | Huffenberger, K. M. | Hombre |
FLORIDA STATE UNIV - Estados Unidos
|
| 29 | Hughes, John P. | Hombre |
RUTGERS STATE UNIV - Estados Unidos
|
| 30 | Koopman, Brian J. | Hombre |
YALE UNIV - Estados Unidos
|
| 31 | Kosowsky, Arthur | Hombre |
Univ Pittsburgh - Estados Unidos
|
| 32 | Lokken, M. | Mujer |
UNIV TORONTO - Canadá
|
| 33 | Louis, Thibaut | Hombre |
Univ Paris Saclay - Francia
|
| 34 | Lungu, Marius | Hombre |
Princeton Univ - Estados Unidos
|
| 35 | Macinnis, Amanda | Mujer |
SUNY Stony Brook - Estados Unidos
|
| 36 | Maurin, Loic | Hombre |
Univ Paris Saclay - Francia
|
| 37 | McMahon, Jeffrey J. | Hombre |
UNIV MICHIGAN - Estados Unidos
|
| 38 | Moodley, Kavilan | - |
Univ KwaZulu Natal - República de Sudáfrica
|
| 39 | Nati, Federico | Hombre |
Univ Milano Bicocca - Italia
|
| 40 | Cozzuol, Mario A. | Hombre |
CORNELL UNIV - Estados Unidos
|
| 41 | Page, Lyman | Hombre |
Princeton Univ - Estados Unidos
|
| 42 | Partridge, Bruce | Hombre |
Haverford Coll - Estados Unidos
|
| 43 | Robertson, Naomi C. | Mujer |
Inst Astron - Reino Unido
UNIV CAMBRIDGE - Reino Unido |
| 44 | Sehgal, N. | Mujer |
Flatiron Inst - Estados Unidos
SUNY Stony Brook - Estados Unidos |
| 45 | Schaan, Emmanuel | Hombre |
Lawrence Berkeley Natl Lab - Estados Unidos
|
| 46 | Schillaci, A. | Hombre |
CALTECH - Estados Unidos
|
| 47 | Juin, Jean-Baptiste | Hombre |
UNIV CAMBRIDGE - Reino Unido
|
| 48 | Sifon, Cristobal | Hombre |
Pontificia Universidad Católica de Valparaíso - Chile
|
| 49 | Simon, Sara M. | Mujer |
UNIV MICHIGAN - Estados Unidos
|
| 50 | Spergel, David N. | Hombre |
Princeton Univ - Estados Unidos
Flatiron Inst - Estados Unidos |
| 51 | Staggs, Suzanne T. | Mujer |
Princeton Univ - Estados Unidos
|
| 52 | Storer, Emilie R. | Mujer |
Princeton Univ - Estados Unidos
|
| 53 | Van Engelen, Alexander | Hombre |
Arizona State Univ - Estados Unidos
|
| 54 | Vavagiakis, Eve M. D. | Mujer |
CORNELL UNIV - Estados Unidos
|
| 55 | Wollack, Edward J. | Hombre |
NASA - Estados Unidos
|
| 56 | Xu, Zhilei | - |
UNIV PENN - Estados Unidos
|
| Fuente |
|---|
| CONICYT |
| CONICYT FONDECYT |
| National Research Foundation |
| Comisión Nacional de Investigación Científica y Tecnológica de Chile (CONICYT) |
| National Research Foundation of South Africa |
| University of KwaZulu-Natal |
| NSF |
| U.S. National Science Foundation |
| NASA |
| Government of Ontario |
| University of Toronto |
| Princeton University |
| DOE |
| University of Pennsylvania |
| Simons Foundation |
| STFC Ernest Rutherford Fellowship |
| South African Radio Astronomy Observatory |
| NASA ATP |
| Canada Foundation for Innovation (CFI) award |
| Mishrahi Fund |
| Ontario Research Fund-Research Excellence |
| Wilkinson Fund |
| CFI under the Compute Canada |
| NASA ROSES |
| W. M. Keck Foundation Fund at the Institute for Advanced Study |
| Cornell Presidential Postdoctoral Fellowship |
| Agradecimiento |
|---|
| We are grateful to Hans Kristian Eriksen, Reijo Keskitalo, and Mathieu Remazeilles for informative discussions related to Planck products and analysis. Some of the results in this paper have been derived using the HEALPY [126] and HEALPix [127] packages. This research made use of Astropy,8 a community-developed core PYTHON package for Astronomy [128,129]. We also acknowledge use of the MATPLOTLIB [130] package and the Python Image Library for producing plots in this paper, and use of the Boltzmann code CAMB [97] for calculating theory spectra. This work was supported by the U.S. National Science Foundation through Grants No. AST-1440226, No. AST0965625 and No. AST-0408698 for the ACT project, as well as Grants No. PHY-1214379 and No. PHY-0855887. Funding was also provided by Princeton University, the University of Pennsylvania, and a Canada Foundation for Innovation (CFI) award to UBC. ACT operates in the Parque Astronomico Atacama in northern Chile under the auspices of the Comision Nacional de Investigacion Cientifica y Tecnologica de Chile (CONICYT). Computations were performed on the GPC and Niagara supercomputers at the SciNet HPC Consortium. SciNet is funded by the CFI under the auspices of Compute Canada, the Government of Ontario, the Ontario Research Fund-Research Excellence; and the University of Toronto. The development of multichroic detectors and lenses was supported by NASA Grants No. NNX13AE56G and No. NNX14AB58G. Colleagues at AstroNorte and RadioSky provide logistical support and keep operations in Chile running smoothly. We also thank the Mishrahi Fund and the Wilkinson Fund for their generous support of the project. M. S. M. acknowledges support from NSF GrantNo. AST-1814971. J. C. H. acknowledges support from the Simons Foundation and the W. M. Keck Foundation Fund at the Institute for Advanced Study. Flatiron Institute is supported by the Simons Foundation. R. B. and V. C. acknowledge DoE Grant No. DE-SC0011838, NASA ATP grants No. NNX14AH53G and No. 80NSSC18K0695, NASA ROSES grant No. 12-EUCLID12-0004 and funding related to the WFIRST Science Investigation Team. E. C. is supported by a STFC Ernest Rutherford Fellowship ST/M004856/2. S. K. C. acknowledges support from the Cornell Presidential Postdoctoral Fellowship. R. D. thanks CONICYT for Grant No. BASAL CATA AFB-170002. M. H. acknowledges funding support from the National Research Foundation, the South African Radio Astronomy Observatory, and the University of KwaZulu-Natal. L. M. received funding from CONICYT FONDECYT Grant No. 3170846. K. M. acknowledges support from the National Research Foundation of South Africa. N. S. acknowledges support from NSF Grant No. 1513618. |
