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JWST lensed quasar dark matter survey I: description and first results

JWST lensed quasar dark matter survey I: description and first results
JWST lensed quasar dark matter survey I: description and first results
The flux ratios of gravitationally lensed quasars provide a powerful probe of the nature of dark matter. Importantly, these ratios are sensitive to small-scale structure, irrespective of the presence of baryons. This sensitivity may allow us to study the halo mass function even below the scales where galaxies form observable stars. For accurate measurements, it is essential that the quasar's light is emitted from a physical region of the quasar with an angular scale of milli-arcseconds or larger; this minimizes microlensing effects by stars within the deflector. The warm dust region of quasars fits this criterion, as it has parsec-size physical scales and dominates the spectral energy distribution of quasars at wavelengths greater than 10$\mu$m. The JWST Mid-Infrared Instrument (MIRI) is adept at detecting redshifted light in this wavelength range, offering both the spatial resolution and sensitivity required for accurate gravitational lensing flux ratio measurements. Here, we introduce our survey designed to measure the warm dust flux ratios of 31 lensed quasars. We discuss the flux-ratio measurement technique and present results for the first target, DES J0405-3308. We find that we can measure the quasar warm dust flux ratios with 3% precision. Our simulations suggest that this precision makes it feasible to detect the presence of 10$^7$ M$_\odot$ dark matter halos at cosmological distances. Such halos are expected to be completely dark in Cold Dark Matter models.
Astrophysics - Cosmology and Nongalactic Astrophysics
1365-2966
Nierenberg, A.M.
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Keeley, R.E.
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Sluse, D.
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Gilman, D.
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Birrer, S.
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Treu, T.
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Abazajian, K.N.
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Anguita, T.
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Benson, A.J.
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Bennert, V.N.
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Djorgovski, S.G.
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Du, X.
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Fassnacht, C.D.
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Hoenig, S.F.
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Kusenko, A.
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Lemon, C.
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Malkan, M.
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Motta, V.
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Moustakas, L.A.
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Stern, D.
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Wechsler, R.H.
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Nierenberg, A.M.
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Keeley, R.E.
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Sluse, D.
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Gilman, D.
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Birrer, S.
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Treu, T.
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Abazajian, K.N.
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Anguita, T.
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Benson, A.J.
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Bennert, V.N.
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Djorgovski, S.G.
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Du, X.
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Fassnacht, C.D.
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Hoenig, S.F.
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Kusenko, A.
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Lemon, C.
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Malkan, M.
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Motta, V.
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Moustakas, L.A.
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Stern, D.
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Wechsler, R.H.
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Nierenberg, A.M., Keeley, R.E., Sluse, D., Gilman, D., Birrer, S., Treu, T., Abazajian, K.N., Anguita, T., Benson, A.J., Bennert, V.N., Djorgovski, S.G., Du, X., Fassnacht, C.D., Hoenig, S.F., Kusenko, A., Lemon, C., Malkan, M., Motta, V., Moustakas, L.A., Stern, D. and Wechsler, R.H. (2023) JWST lensed quasar dark matter survey I: description and first results. Monthly Notices of the Royal Astronomical Society, [stae499]. (doi:10.1093/mnras/stae499).

Record type: Article

Abstract

The flux ratios of gravitationally lensed quasars provide a powerful probe of the nature of dark matter. Importantly, these ratios are sensitive to small-scale structure, irrespective of the presence of baryons. This sensitivity may allow us to study the halo mass function even below the scales where galaxies form observable stars. For accurate measurements, it is essential that the quasar's light is emitted from a physical region of the quasar with an angular scale of milli-arcseconds or larger; this minimizes microlensing effects by stars within the deflector. The warm dust region of quasars fits this criterion, as it has parsec-size physical scales and dominates the spectral energy distribution of quasars at wavelengths greater than 10$\mu$m. The JWST Mid-Infrared Instrument (MIRI) is adept at detecting redshifted light in this wavelength range, offering both the spatial resolution and sensitivity required for accurate gravitational lensing flux ratio measurements. Here, we introduce our survey designed to measure the warm dust flux ratios of 31 lensed quasars. We discuss the flux-ratio measurement technique and present results for the first target, DES J0405-3308. We find that we can measure the quasar warm dust flux ratios with 3% precision. Our simulations suggest that this precision makes it feasible to detect the presence of 10$^7$ M$_\odot$ dark matter halos at cosmological distances. Such halos are expected to be completely dark in Cold Dark Matter models.

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Published date: 19 February 2023
Keywords: Astrophysics - Cosmology and Nongalactic Astrophysics
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Identifiers

Local EPrints ID: 489443
URI: http://eprints.soton.ac.uk/id/eprint/489443
DOI: doi:10.1093/mnras/stae499
ISSN: 1365-2966
PURE UUID: 85e26a4a-0b9b-4a9d-a2b6-24cb1a82f82a

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Date deposited: 24 Apr 2024 16:36
Last modified: 24 Apr 2024 16:36

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Contributors

Author: A.M. Nierenberg
Author: R.E. Keeley
Author: D. Sluse
Author: D. Gilman
Author: S. Birrer
Author: T. Treu
Author: K.N. Abazajian
Author: T. Anguita
Author: A.J. Benson
Author: V.N. Bennert
Author: S.G. Djorgovski
Author: X. Du
Author: C.D. Fassnacht
Author: S.F. Hoenig
Author: A. Kusenko
Author: C. Lemon
Author: M. Malkan
Author: V. Motta
Author: L.A. Moustakas
Author: D. Stern
Author: R.H. Wechsler

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