Cosmology with the Roman Space Telescope: Synergies with the Rubin Observatory Legacy Survey of Space and Time

Tim Eifler; Melanie Simet; Elisabeth Krause; Christopher Hirata; Hung Jin Huang; Xiao Fang; Vivian Miranda; Rachel Mandelbaum; Cyrille Doux; Chen Heinrich; Eric Huff; Hironao Miyatake; Shoubaneh Hemmati; Jiachuan Xu; Paul Rogozenski; Peter Capak; Ami Choi; Olivier Doré; Bhuvnesh Jain; Mike Jarvis; Jeffrey Kruk; Niall MacCrann; Dan Masters; Eduardo Rozo; David N. Spergel; Michael Troxel; Anja Von Der Linden; Yun Wang; David H. Weinberg; Lukas Wenzl; Hao Yi Wu

doi:10.1093/mnras/stab533

Cosmology with the Roman Space Telescope: Synergies with the Rubin Observatory Legacy Survey of Space and Time

Tim Eifler
, Melanie Simet
, Elisabeth Krause
, Christopher Hirata
, Hung Jin Huang
, Xiao Fang
, Vivian Miranda
, Rachel Mandelbaum
, Cyrille Doux
, Chen Heinrich
, Eric Huff
, Hironao Miyatake
, Shoubaneh Hemmati
, Jiachuan Xu
, Paul Rogozenski
, Peter Capak
, Ami Choi
, Olivier Doré
, Bhuvnesh Jain
, Mike Jarvis

Jeffrey Kruk, Niall MacCrann, Dan Masters, Eduardo Rozo, David N. Spergel, Michael Troxel, Anja Von Der Linden, Yun Wang, David H. Weinberg, Lukas Wenzl, Hao Yi Wu

University of Arizona
University of California at Riverside
Jet Propulsion Laboratory, California Institute of Technology
Ohio State University
Carnegie Mellon University
University of Pennsylvania
Nagoya University
The University of Tokyo
California Institute of Technology
NASA Goddard Space Flight Center
Simons Foundation
Princeton University
Duke University
Cornell University

Research output: Contribution to journal › Article › peer-review

43 Scopus citations

Abstract

We explore synergies between the Nancy Grace Roman Space Telescope and the Vera Rubin Observatory's Legacy Survey of Space and Time (LSST). Specifically, we consider scenarios where the currently envisioned survey strategy for the Roman Space Telescope's High Latitude Survey (HLS reference), i.e. 2000 deg2 in four narrow photometric bands is altered in favour of a strategy of rapid coverage of the LSST area (to full LSST depth) in one band. We find that in only five months, a survey in the W-band can cover the full LSST survey area providing high-resolution imaging for >95 per cent of the LSST Year 10 gold galaxy sample. We explore a second, more ambitious scenario where the Roman Space Telescope spends 1.5 yr covering the LSST area. For this second scenario, we quantify the constraining power on dark energy equation-of-state parameters from a joint weak lensing and galaxy clustering analysis. Our survey simulations are based on the Roman Space Telescope exposure-time calculator and redshift distributions from the CANDELS catalogue. Our statistical uncertainties account for higher order correlations of the density field, and we include a wide range of systematic effects, such as uncertainties in shape and redshift measurements, and modelling uncertainties of astrophysical systematics, such as galaxy bias, intrinsic galaxy alignment, and baryonic physics. We find a significant increase in constraining power for the joint LSST + HLS wide survey compared to LSST Y10 (FoMHLSwide = 2.4 FoMLSST) and compared to LSST + HLS (FoMHLSwide = 5.5 FoMHLSref).

Original language	English
Pages (from-to)	1514-1527
Number of pages	14
Journal	Monthly Notices of the Royal Astronomical Society
Volume	507
Issue number	1
DOIs	https://doi.org/10.1093/mnras/stab533
State	Published - Oct 1 2021

Keywords

cosmological parameters
large-scale structure of the Universe

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10.1093/mnras/stab533

Cite this

Eifler, T., Simet, M., Krause, E., Hirata, C., Huang, H. J., Fang, X., Miranda, V., Mandelbaum, R., Doux, C., Heinrich, C., Huff, E., Miyatake, H., Hemmati, S., Xu, J., Rogozenski, P., Capak, P., Choi, A., Doré, O., Jain, B., ... Wu, H. Y. (2021). Cosmology with the Roman Space Telescope: Synergies with the Rubin Observatory Legacy Survey of Space and Time. Monthly Notices of the Royal Astronomical Society, 507(1), 1514-1527. https://doi.org/10.1093/mnras/stab533

@article{304536eb822f4013b5203486b7cffd65,

title = "Cosmology with the Roman Space Telescope: Synergies with the Rubin Observatory Legacy Survey of Space and Time",

abstract = "We explore synergies between the Nancy Grace Roman Space Telescope and the Vera Rubin Observatory's Legacy Survey of Space and Time (LSST). Specifically, we consider scenarios where the currently envisioned survey strategy for the Roman Space Telescope's High Latitude Survey (HLS reference), i.e. 2000 deg2 in four narrow photometric bands is altered in favour of a strategy of rapid coverage of the LSST area (to full LSST depth) in one band. We find that in only five months, a survey in the W-band can cover the full LSST survey area providing high-resolution imaging for >95 per cent of the LSST Year 10 gold galaxy sample. We explore a second, more ambitious scenario where the Roman Space Telescope spends 1.5 yr covering the LSST area. For this second scenario, we quantify the constraining power on dark energy equation-of-state parameters from a joint weak lensing and galaxy clustering analysis. Our survey simulations are based on the Roman Space Telescope exposure-time calculator and redshift distributions from the CANDELS catalogue. Our statistical uncertainties account for higher order correlations of the density field, and we include a wide range of systematic effects, such as uncertainties in shape and redshift measurements, and modelling uncertainties of astrophysical systematics, such as galaxy bias, intrinsic galaxy alignment, and baryonic physics. We find a significant increase in constraining power for the joint LSST + HLS wide survey compared to LSST Y10 (FoMHLSwide = 2.4 FoMLSST) and compared to LSST + HLS (FoMHLSwide = 5.5 FoMHLSref).",

keywords = "cosmological parameters, large-scale structure of the Universe",

author = "Tim Eifler and Melanie Simet and Elisabeth Krause and Christopher Hirata and Huang, \{Hung Jin\} and Xiao Fang and Vivian Miranda and Rachel Mandelbaum and Cyrille Doux and Chen Heinrich and Eric Huff and Hironao Miyatake and Shoubaneh Hemmati and Jiachuan Xu and Paul Rogozenski and Peter Capak and Ami Choi and Olivier Dor{\'e} and Bhuvnesh Jain and Mike Jarvis and Jeffrey Kruk and Niall MacCrann and Dan Masters and Eduardo Rozo and Spergel, \{David N.\} and Michael Troxel and \{Von Der Linden\}, Anja and Yun Wang and Weinberg, \{David H.\} and Lukas Wenzl and Wu, \{Hao Yi\}",

note = "Publisher Copyright: {\textcopyright} 2021 The Author(s) Published by Oxford University Press on behalf of Royal Astronomical Society.",

year = "2021",

month = oct,

day = "1",

doi = "10.1093/mnras/stab533",

language = "English",

volume = "507",

pages = "1514--1527",

journal = "Monthly Notices of the Royal Astronomical Society",

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Eifler, T, Simet, M, Krause, E, Hirata, C, Huang, HJ, Fang, X, Miranda, V, Mandelbaum, R, Doux, C, Heinrich, C, Huff, E, Miyatake, H, Hemmati, S, Xu, J, Rogozenski, P, Capak, P, Choi, A, Doré, O, Jain, B, Jarvis, M, Kruk, J, MacCrann, N, Masters, D, Rozo, E, Spergel, DN, Troxel, M, Von Der Linden, A, Wang, Y, Weinberg, DH, Wenzl, L & Wu, HY 2021, 'Cosmology with the Roman Space Telescope: Synergies with the Rubin Observatory Legacy Survey of Space and Time', Monthly Notices of the Royal Astronomical Society, vol. 507, no. 1, pp. 1514-1527. https://doi.org/10.1093/mnras/stab533

TY - JOUR

T1 - Cosmology with the Roman Space Telescope

T2 - Synergies with the Rubin Observatory Legacy Survey of Space and Time

AU - Eifler, Tim

AU - Simet, Melanie

AU - Krause, Elisabeth

AU - Hirata, Christopher

AU - Huang, Hung Jin

AU - Fang, Xiao

AU - Miranda, Vivian

AU - Mandelbaum, Rachel

AU - Doux, Cyrille

AU - Heinrich, Chen

AU - Huff, Eric

AU - Miyatake, Hironao

AU - Hemmati, Shoubaneh

AU - Xu, Jiachuan

AU - Rogozenski, Paul

AU - Capak, Peter

AU - Choi, Ami

AU - Doré, Olivier

AU - Jain, Bhuvnesh

AU - Jarvis, Mike

AU - Kruk, Jeffrey

AU - MacCrann, Niall

AU - Masters, Dan

AU - Rozo, Eduardo

AU - Spergel, David N.

AU - Troxel, Michael

AU - Von Der Linden, Anja

AU - Wang, Yun

AU - Weinberg, David H.

AU - Wenzl, Lukas

AU - Wu, Hao Yi

PY - 2021/10/1

Y1 - 2021/10/1

N2 - We explore synergies between the Nancy Grace Roman Space Telescope and the Vera Rubin Observatory's Legacy Survey of Space and Time (LSST). Specifically, we consider scenarios where the currently envisioned survey strategy for the Roman Space Telescope's High Latitude Survey (HLS reference), i.e. 2000 deg2 in four narrow photometric bands is altered in favour of a strategy of rapid coverage of the LSST area (to full LSST depth) in one band. We find that in only five months, a survey in the W-band can cover the full LSST survey area providing high-resolution imaging for >95 per cent of the LSST Year 10 gold galaxy sample. We explore a second, more ambitious scenario where the Roman Space Telescope spends 1.5 yr covering the LSST area. For this second scenario, we quantify the constraining power on dark energy equation-of-state parameters from a joint weak lensing and galaxy clustering analysis. Our survey simulations are based on the Roman Space Telescope exposure-time calculator and redshift distributions from the CANDELS catalogue. Our statistical uncertainties account for higher order correlations of the density field, and we include a wide range of systematic effects, such as uncertainties in shape and redshift measurements, and modelling uncertainties of astrophysical systematics, such as galaxy bias, intrinsic galaxy alignment, and baryonic physics. We find a significant increase in constraining power for the joint LSST + HLS wide survey compared to LSST Y10 (FoMHLSwide = 2.4 FoMLSST) and compared to LSST + HLS (FoMHLSwide = 5.5 FoMHLSref).

AB - We explore synergies between the Nancy Grace Roman Space Telescope and the Vera Rubin Observatory's Legacy Survey of Space and Time (LSST). Specifically, we consider scenarios where the currently envisioned survey strategy for the Roman Space Telescope's High Latitude Survey (HLS reference), i.e. 2000 deg2 in four narrow photometric bands is altered in favour of a strategy of rapid coverage of the LSST area (to full LSST depth) in one band. We find that in only five months, a survey in the W-band can cover the full LSST survey area providing high-resolution imaging for >95 per cent of the LSST Year 10 gold galaxy sample. We explore a second, more ambitious scenario where the Roman Space Telescope spends 1.5 yr covering the LSST area. For this second scenario, we quantify the constraining power on dark energy equation-of-state parameters from a joint weak lensing and galaxy clustering analysis. Our survey simulations are based on the Roman Space Telescope exposure-time calculator and redshift distributions from the CANDELS catalogue. Our statistical uncertainties account for higher order correlations of the density field, and we include a wide range of systematic effects, such as uncertainties in shape and redshift measurements, and modelling uncertainties of astrophysical systematics, such as galaxy bias, intrinsic galaxy alignment, and baryonic physics. We find a significant increase in constraining power for the joint LSST + HLS wide survey compared to LSST Y10 (FoMHLSwide = 2.4 FoMLSST) and compared to LSST + HLS (FoMHLSwide = 5.5 FoMHLSref).

KW - cosmological parameters

KW - large-scale structure of the Universe

UR - https://www.scopus.com/pages/publications/85115190904

U2 - 10.1093/mnras/stab533

DO - 10.1093/mnras/stab533

M3 - Article

AN - SCOPUS:85115190904

SN - 0035-8711

VL - 507

SP - 1514

EP - 1527

JO - Monthly Notices of the Royal Astronomical Society

JF - Monthly Notices of the Royal Astronomical Society

IS - 1

ER -

Cosmology with the Roman Space Telescope: Synergies with the Rubin Observatory Legacy Survey of Space and Time

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