Back to Search Start Over

The Simons Observatory: Galactic Science Goals and Forecasts

Authors :
Hensley, B
Clark, S
Fanfani, V
Krachmalnicoff, N
Fabbian, G
Poletti, D
Puglisi, G
Coppi, G
Nibauer, J
Gerasimov, R
Galitzki, N
Choi, S
Ashton, P
Baccigalupi, C
Baxter, E
Burkhart, B
Calabrese, E
Chluba, J
Errard, J
Frolov, A
Herv??as-Caimapo, C
Huffenberger, K
Johnson, B
Jost, B
Keating, B
Mccarrick, H
Nati, F
Sathyanarayana Rao, M
van Engelen, A
Walker, S
Wolz, K
Xu, Z
Zhu, N
Zonca, A
Brandon S. Hensley
Susan E. Clark
Valentina Fanfani
Nicoletta Krachmalnicoff
Giulio Fabbian
Davide Poletti
Giuseppe Puglisi
Gabriele Coppi
Jacob Nibauer
Roman Gerasimov
Nicholas Galitzki
Steve K. Choi
Peter C. Ashton
Carlo Baccigalupi
Eric Baxter
Blakesley Burkhart
Erminia Calabrese
Jens Chluba
Josquin Errard
Andrei V. Frolov
Carlos Herv??as-Caimapo
Kevin M. Huffenberger
Bradley R. Johnson
Baptiste Jost
Brian Keating
Heather McCarrick
Federico Nati
Mayuri Sathyanarayana Rao
Alexander van Engelen
Samantha Walker
Kevin Wolz
Zhilei Xu
Ningfeng Zhu
Andrea Zonca
Hensley, B
Clark, S
Fanfani, V
Krachmalnicoff, N
Fabbian, G
Poletti, D
Puglisi, G
Coppi, G
Nibauer, J
Gerasimov, R
Galitzki, N
Choi, S
Ashton, P
Baccigalupi, C
Baxter, E
Burkhart, B
Calabrese, E
Chluba, J
Errard, J
Frolov, A
Herv??as-Caimapo, C
Huffenberger, K
Johnson, B
Jost, B
Keating, B
Mccarrick, H
Nati, F
Sathyanarayana Rao, M
van Engelen, A
Walker, S
Wolz, K
Xu, Z
Zhu, N
Zonca, A
Brandon S. Hensley
Susan E. Clark
Valentina Fanfani
Nicoletta Krachmalnicoff
Giulio Fabbian
Davide Poletti
Giuseppe Puglisi
Gabriele Coppi
Jacob Nibauer
Roman Gerasimov
Nicholas Galitzki
Steve K. Choi
Peter C. Ashton
Carlo Baccigalupi
Eric Baxter
Blakesley Burkhart
Erminia Calabrese
Jens Chluba
Josquin Errard
Andrei V. Frolov
Carlos Herv??as-Caimapo
Kevin M. Huffenberger
Bradley R. Johnson
Baptiste Jost
Brian Keating
Heather McCarrick
Federico Nati
Mayuri Sathyanarayana Rao
Alexander van Engelen
Samantha Walker
Kevin Wolz
Zhilei Xu
Ningfeng Zhu
Andrea Zonca
Publication Year :
2022

Abstract

Observing in six frequency bands from 27 to 280 GHz over a large sky area, the Simons Observatory (SO) is poised to address many questions in Galactic astrophysics in addition to its principal cosmological goals. In this work, we provide quantitative forecasts on astrophysical parameters of interest for a range of Galactic science cases. We find that SO can: constrain the frequency spectrum of polarized dust emission at a level of Delta beta(d) less than or similar to 0.01 and thus test models of dust composition that predict that beta(d) in polarization differs from that measured in total intensity; measure the correlation coefficient between polarized dust and synchrotron emission with a factor of two greater precision than current constraints; exclude the nonexistence of exo-Oort clouds at roughly 2.9 sigma if the true fraction is similar to the detection rate of giant planets; map more than 850 molecular clouds with at least 50 independent polarization measurements at 1 pc resolution; detect or place upper limits on the polarization fractions of CO(2-1) emission and anomalous microwave emission at the 0.1% level in select regions; and measure the correlation coefficient between optical starlight polarization and microwave polarized dust emission in 1 degrees patches for all lines of sight with N-H greater than or similar to 2 x 10(20) cm(-2). The goals and forecasts outlined here provide a roadmap for other microwave polarization experiments to expand their scientific scope via Milky Way astrophysics.

Details

Database :
OAIster
Notes :
STAMPA, English
Publication Type :
Electronic Resource
Accession number :
edsoai.on1358885354
Document Type :
Electronic Resource