Scientific synergy between LSST and Euclid

Jason Rhodes; Robert C. Nichol; Éric Aubourg; Rachel Bean; Dominique Boutigny; Malcolm N. Bremer; Peter Capak; Vincenzo Cardone; Benoît Carry; Christopher J. Conselice; Andrew J. Connolly; Jean-Charles Cuillandre; N. A. Hatch; George Helou; Shoubaneh Hemmati; Hendrik Hildebrandt; Renée Hložek; Lynne Jones; Steven Kahn; Alina Kiessling; Thomas Kitching; Robert Lupton; Rachel Mandelbaum; Katarina Markovic; Phil Marshall; Richard Massey; Ben J. Maughan; Peter Melchior; Yannick Mellier; Jeffrey A. Newman; Brant Robertson; Marc Sauvage; Tim Schrabback; Graham P. Smith; Michael A. Strauss; Andy Taylor; Anja Von Der Linden

doi:10.3847/1538-4365/aa96b0

Scientific synergy between LSST and Euclid

Jason Rhodes, Robert C. Nichol, Éric Aubourg, Rachel Bean, Dominique Boutigny, Malcolm N. Bremer, Peter Capak, Vincenzo Cardone, Benoît Carry, Christopher J. Conselice, Andrew J. Connolly, Jean-Charles Cuillandre, N. A. Hatch, George Helou, Shoubaneh Hemmati, Hendrik Hildebrandt, Renée Hložek, Lynne Jones, Steven Kahn, Alina KiesslingThomas Kitching, Robert Lupton, Rachel Mandelbaum, Katarina Markovic, Phil Marshall, Richard Massey, Ben J. Maughan, Peter Melchior, Yannick Mellier, Jeffrey A. Newman, Brant Robertson, Marc Sauvage, Tim Schrabback, Graham P. Smith, Michael A. Strauss, Andy Taylor, Anja Von Der Linden

Physics and Astronomy

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

24 Citations (Scopus)

Abstract

Euclid and the Large Synoptic Survey Telescope (LSST) are poised to dramatically change the astronomy landscape early in the next decade. The combination of high cadence, deep, wide-field optical photometry from LSST with high resolution, wide-field optical photometry and near-infrared photometry and spectroscopy from Euclid will be powerful for addressing a wide range of astrophysical questions. We explore Euclid/LSST synergy, ignoring the political issues associated with data access to focus on the scientific, technical, and financial benefits of coordination. We focus primarily on dark energy cosmology, but also discuss galaxy evolution, transient objects, solar system science, and galaxy cluster studies. We concentrate on synergies that require coordination in cadence or survey overlap, or would benefit from pixel-level co-processing that is beyond the scope of what is currently planned, rather than scientific programs that could be accomplished only at the catalog level without coordination in data processing or survey strategies. We provide two quantitative examples of scientific synergies: the decrease in photo-z errors (benefitting many science cases) when high resolution Euclid data are used for LSST photo-z determination, and the resulting increase in weak lensing signal-to-noise ratio from smaller photo-z errors. We briefly discuss other areas of coordination, including high performance computing resources and calibration data. Finally, we address concerns about the loss of independence and potential cross-checks between the two missions and potential consequences of not collaborating.

Original language	English
Article number	21
Number of pages	23
Journal	Astrophysical Journal. Supplement Series
Volume	233
Issue number	2
Early online date	7 Dec 2017
DOIs	https://doi.org/10.3847/1538-4365/aa96b0
Publication status	Published - Dec 2017

Keywords

astro-ph.IM
astro-ph.CO
cosmological parameters
cosmology: dark energy
galaxies: clusters: general
gravitational lensing: weak
surveys
telescopes

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Rhodes, J., Nichol, R. C., Aubourg, É., Bean, R., Boutigny, D., Bremer, M. N., Capak, P., Cardone, V., Carry, B., Conselice, C. J., Connolly, A. J., Cuillandre, J-C., Hatch, N. A., Helou, G., Hemmati, S., Hildebrandt, H., Hložek, R., Jones, L., Kahn, S., ... Linden, A. V. D. (2017). Scientific synergy between LSST and Euclid. Astrophysical Journal. Supplement Series, 233(2), Article 21. Advance online publication. https://doi.org/10.3847/1538-4365/aa96b0

@article{2b26f08ea37c4c41b5b98b453167821d,

title = "Scientific synergy between LSST and Euclid",

abstract = "Euclid and the Large Synoptic Survey Telescope (LSST) are poised to dramatically change the astronomy landscape early in the next decade. The combination of high cadence, deep, wide-field optical photometry from LSST with high resolution, wide-field optical photometry and near-infrared photometry and spectroscopy from Euclid will be powerful for addressing a wide range of astrophysical questions. We explore Euclid/LSST synergy, ignoring the political issues associated with data access to focus on the scientific, technical, and financial benefits of coordination. We focus primarily on dark energy cosmology, but also discuss galaxy evolution, transient objects, solar system science, and galaxy cluster studies. We concentrate on synergies that require coordination in cadence or survey overlap, or would benefit from pixel-level co-processing that is beyond the scope of what is currently planned, rather than scientific programs that could be accomplished only at the catalog level without coordination in data processing or survey strategies. We provide two quantitative examples of scientific synergies: the decrease in photo-z errors (benefitting many science cases) when high resolution Euclid data are used for LSST photo-z determination, and the resulting increase in weak lensing signal-to-noise ratio from smaller photo-z errors. We briefly discuss other areas of coordination, including high performance computing resources and calibration data. Finally, we address concerns about the loss of independence and potential cross-checks between the two missions and potential consequences of not collaborating. ",

keywords = "astro-ph.IM, astro-ph.CO, cosmological parameters, cosmology: dark energy, galaxies: clusters: general, gravitational lensing: weak, surveys, telescopes",

author = "Jason Rhodes and Nichol, {Robert C.} and {\'E}ric Aubourg and Rachel Bean and Dominique Boutigny and Bremer, {Malcolm N.} and Peter Capak and Vincenzo Cardone and Beno{\^i}t Carry and Conselice, {Christopher J.} and Connolly, {Andrew J.} and Jean-Charles Cuillandre and Hatch, {N. A.} and George Helou and Shoubaneh Hemmati and Hendrik Hildebrandt and Ren{\'e}e Hlo{\v z}ek and Lynne Jones and Steven Kahn and Alina Kiessling and Thomas Kitching and Robert Lupton and Rachel Mandelbaum and Katarina Markovic and Phil Marshall and Richard Massey and Maughan, {Ben J.} and Peter Melchior and Yannick Mellier and Newman, {Jeffrey A.} and Brant Robertson and Marc Sauvage and Tim Schrabback and Smith, {Graham P.} and Strauss, {Michael A.} and Andy Taylor and Linden, {Anja Von Der}",

year = "2017",

month = dec,

doi = "10.3847/1538-4365/aa96b0",

language = "English",

volume = "233",

journal = "Astrophysical Journal. Supplement Series",

issn = "0067-0049",

publisher = "American Astronomical Society",

number = "2",

}

Rhodes, J, Nichol, RC, Aubourg, É, Bean, R, Boutigny, D, Bremer, MN, Capak, P, Cardone, V, Carry, B, Conselice, CJ, Connolly, AJ, Cuillandre, J-C, Hatch, NA, Helou, G, Hemmati, S, Hildebrandt, H, Hložek, R, Jones, L, Kahn, S, Kiessling, A, Kitching, T, Lupton, R, Mandelbaum, R, Markovic, K, Marshall, P, Massey, R, Maughan, BJ, Melchior, P, Mellier, Y, Newman, JA, Robertson, B, Sauvage, M, Schrabback, T, Smith, GP, Strauss, MA, Taylor, A & Linden, AVD 2017, 'Scientific synergy between LSST and Euclid', Astrophysical Journal. Supplement Series, vol. 233, no. 2, 21. https://doi.org/10.3847/1538-4365/aa96b0

TY - JOUR

T1 - Scientific synergy between LSST and Euclid

AU - Rhodes, Jason

AU - Nichol, Robert C.

AU - Aubourg, Éric

AU - Bean, Rachel

AU - Boutigny, Dominique

AU - Bremer, Malcolm N.

AU - Capak, Peter

AU - Cardone, Vincenzo

AU - Carry, Benoît

AU - Conselice, Christopher J.

AU - Connolly, Andrew J.

AU - Cuillandre, Jean-Charles

AU - Hatch, N. A.

AU - Helou, George

AU - Hemmati, Shoubaneh

AU - Hildebrandt, Hendrik

AU - Hložek, Renée

AU - Jones, Lynne

AU - Kahn, Steven

AU - Kiessling, Alina

AU - Kitching, Thomas

AU - Lupton, Robert

AU - Mandelbaum, Rachel

AU - Markovic, Katarina

AU - Marshall, Phil

AU - Massey, Richard

AU - Maughan, Ben J.

AU - Melchior, Peter

AU - Mellier, Yannick

AU - Newman, Jeffrey A.

AU - Robertson, Brant

AU - Sauvage, Marc

AU - Schrabback, Tim

AU - Smith, Graham P.

AU - Strauss, Michael A.

AU - Taylor, Andy

AU - Linden, Anja Von Der

PY - 2017/12

Y1 - 2017/12

N2 - Euclid and the Large Synoptic Survey Telescope (LSST) are poised to dramatically change the astronomy landscape early in the next decade. The combination of high cadence, deep, wide-field optical photometry from LSST with high resolution, wide-field optical photometry and near-infrared photometry and spectroscopy from Euclid will be powerful for addressing a wide range of astrophysical questions. We explore Euclid/LSST synergy, ignoring the political issues associated with data access to focus on the scientific, technical, and financial benefits of coordination. We focus primarily on dark energy cosmology, but also discuss galaxy evolution, transient objects, solar system science, and galaxy cluster studies. We concentrate on synergies that require coordination in cadence or survey overlap, or would benefit from pixel-level co-processing that is beyond the scope of what is currently planned, rather than scientific programs that could be accomplished only at the catalog level without coordination in data processing or survey strategies. We provide two quantitative examples of scientific synergies: the decrease in photo-z errors (benefitting many science cases) when high resolution Euclid data are used for LSST photo-z determination, and the resulting increase in weak lensing signal-to-noise ratio from smaller photo-z errors. We briefly discuss other areas of coordination, including high performance computing resources and calibration data. Finally, we address concerns about the loss of independence and potential cross-checks between the two missions and potential consequences of not collaborating.

AB - Euclid and the Large Synoptic Survey Telescope (LSST) are poised to dramatically change the astronomy landscape early in the next decade. The combination of high cadence, deep, wide-field optical photometry from LSST with high resolution, wide-field optical photometry and near-infrared photometry and spectroscopy from Euclid will be powerful for addressing a wide range of astrophysical questions. We explore Euclid/LSST synergy, ignoring the political issues associated with data access to focus on the scientific, technical, and financial benefits of coordination. We focus primarily on dark energy cosmology, but also discuss galaxy evolution, transient objects, solar system science, and galaxy cluster studies. We concentrate on synergies that require coordination in cadence or survey overlap, or would benefit from pixel-level co-processing that is beyond the scope of what is currently planned, rather than scientific programs that could be accomplished only at the catalog level without coordination in data processing or survey strategies. We provide two quantitative examples of scientific synergies: the decrease in photo-z errors (benefitting many science cases) when high resolution Euclid data are used for LSST photo-z determination, and the resulting increase in weak lensing signal-to-noise ratio from smaller photo-z errors. We briefly discuss other areas of coordination, including high performance computing resources and calibration data. Finally, we address concerns about the loss of independence and potential cross-checks between the two missions and potential consequences of not collaborating.

KW - astro-ph.IM

KW - astro-ph.CO

KW - cosmological parameters

KW - cosmology: dark energy

KW - galaxies: clusters: general

KW - gravitational lensing: weak

KW - surveys

KW - telescopes

U2 - 10.3847/1538-4365/aa96b0

DO - 10.3847/1538-4365/aa96b0

M3 - Article

SN - 0067-0049

VL - 233

JO - Astrophysical Journal. Supplement Series

JF - Astrophysical Journal. Supplement Series

IS - 2

M1 - 21

ER -

Scientific synergy between LSST and Euclid

Abstract

Keywords

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