JWST Lensed quasar dark matter survey II: Strongest gravitational lensing limit on the dark matter free streaming length to date
This is the second in a series of papers in which we use JWST MIRI multiband imaging to measure the warm dust emission in a sample of 31 multiply imaged quasars, to be used as a probe of the particle nature of dark matter. We present measurements of the relative magnifications of the strongly lensed...
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| creator | Keeley, Ryan E Nierenberg, Anna M Gilman, Daniel Gannon, Charles Birrer, Simon Treu, Tommaso Benson, Andrew J Du, Xiaolong Abazajian, K. N Anguita, T Bennert, V. N Djorgovski, S. G Gupta, K. K Hoenig, S. F Kusenko, A Lemon, C Malkan, M Motta, V Moustakas, L. A Oh, M. S. H Sluse, D Stern, D Wechsler, R. H |
| description | This is the second in a series of papers in which we use JWST MIRI multiband
imaging to measure the warm dust emission in a sample of 31 multiply imaged
quasars, to be used as a probe of the particle nature of dark matter. We
present measurements of the relative magnifications of the strongly lensed warm
dust emission in a sample of 9 systems. The warm dust region is compact and
sensitive to perturbations by populations of halos down to masses $\sim 10^6$
M$_{\odot}$. Using these warm dust flux-ratio measurements in combination with
5 previous narrow-line flux-ratio measurements, we constrain the halo mass
function. In our model, we allow for complex deflector macromodels with
flexible third and fourth-order multipole deviations from ellipticity, and we
introduce an improved model of the tidal evolution of subhalos. We constrain a
WDM model and find an upper limit on the half-mode mass of $10^{7.6} M_\odot$
at posterior odds of 10:1. This corresponds to a lower limit on a thermally
produced dark matter particle mass of 6.1 keV. This is the strongest
gravitational lensing constraint to date, and comparable to those from
independent probes such as the Ly$\alpha$ forest and Milky Way satellite
galaxies. |
| doi_str_mv | 10.48550/arxiv.2405.01620 |
| format | Article |
| fullrecord | <record><control><sourceid>arxiv_GOX</sourceid><recordid>TN_cdi_arxiv_primary_2405_01620</recordid><sourceformat>XML</sourceformat><sourcesystem>PC</sourcesystem><sourcerecordid>2405_01620</sourcerecordid><originalsourceid>FETCH-LOGICAL-a670-7a723884fc8be4a51d6436bea6bc5f5ddf1ddd018f29ea546a7fc28536e13f283</originalsourceid><addsrcrecordid>eNpVkL1OwzAURr0woMIDMHFfIMH5sWPYUMVPUSSGRmKMbuLr1CJxwHEjuvHotIGF6VvOd4bD2FXC41wJwW_Qf9k5TnMuYp7IlJ-z75e3bQUluYk0fO5xQg8a_TsMGAJ5mPZ-pgNsNnewDX50HU0BOo-zDRjs6LCH_ni2roPeDjbA6CDs6J_DeCKYgiccFo5cF3YQxiMU6IKdGewnuvzbFaseH6r1c1S-Pm3W92WEsuBRgUWaKZWbVjWUo0i0zDPZEMqmFUZobRKtNU-USW8JRS6xMG2qRCYpyUyqshW7_tUuCeoPbwf0h_qUol5SZD9UPlvM</addsrcrecordid><sourcetype>Open Access Repository</sourcetype><iscdi>true</iscdi><recordtype>article</recordtype></control><display><type>article</type><title>JWST Lensed quasar dark matter survey II: Strongest gravitational lensing limit on the dark matter free streaming length to date</title><source>arXiv.org</source><creator>Keeley, Ryan E ; Nierenberg, Anna M ; Gilman, Daniel ; Gannon, Charles ; Birrer, Simon ; Treu, Tommaso ; Benson, Andrew J ; Du, Xiaolong ; Abazajian, K. N ; Anguita, T ; Bennert, V. N ; Djorgovski, S. G ; Gupta, K. K ; Hoenig, S. F ; Kusenko, A ; Lemon, C ; Malkan, M ; Motta, V ; Moustakas, L. A ; Oh, M. S. H ; Sluse, D ; Stern, D ; Wechsler, R. H</creator><creatorcontrib>Keeley, Ryan E ; Nierenberg, Anna M ; Gilman, Daniel ; Gannon, Charles ; Birrer, Simon ; Treu, Tommaso ; Benson, Andrew J ; Du, Xiaolong ; Abazajian, K. N ; Anguita, T ; Bennert, V. N ; Djorgovski, S. G ; Gupta, K. K ; Hoenig, S. F ; Kusenko, A ; Lemon, C ; Malkan, M ; Motta, V ; Moustakas, L. A ; Oh, M. S. H ; Sluse, D ; Stern, D ; Wechsler, R. H</creatorcontrib><description>This is the second in a series of papers in which we use JWST MIRI multiband
imaging to measure the warm dust emission in a sample of 31 multiply imaged
quasars, to be used as a probe of the particle nature of dark matter. We
present measurements of the relative magnifications of the strongly lensed warm
dust emission in a sample of 9 systems. The warm dust region is compact and
sensitive to perturbations by populations of halos down to masses $\sim 10^6$
M$_{\odot}$. Using these warm dust flux-ratio measurements in combination with
5 previous narrow-line flux-ratio measurements, we constrain the halo mass
function. In our model, we allow for complex deflector macromodels with
flexible third and fourth-order multipole deviations from ellipticity, and we
introduce an improved model of the tidal evolution of subhalos. We constrain a
WDM model and find an upper limit on the half-mode mass of $10^{7.6} M_\odot$
at posterior odds of 10:1. This corresponds to a lower limit on a thermally
produced dark matter particle mass of 6.1 keV. This is the strongest
gravitational lensing constraint to date, and comparable to those from
independent probes such as the Ly$\alpha$ forest and Milky Way satellite
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imaging to measure the warm dust emission in a sample of 31 multiply imaged
quasars, to be used as a probe of the particle nature of dark matter. We
present measurements of the relative magnifications of the strongly lensed warm
dust emission in a sample of 9 systems. The warm dust region is compact and
sensitive to perturbations by populations of halos down to masses $\sim 10^6$
M$_{\odot}$. Using these warm dust flux-ratio measurements in combination with
5 previous narrow-line flux-ratio measurements, we constrain the halo mass
function. In our model, we allow for complex deflector macromodels with
flexible third and fourth-order multipole deviations from ellipticity, and we
introduce an improved model of the tidal evolution of subhalos. We constrain a
WDM model and find an upper limit on the half-mode mass of $10^{7.6} M_\odot$
at posterior odds of 10:1. This corresponds to a lower limit on a thermally
produced dark matter particle mass of 6.1 keV. This is the strongest
gravitational lensing constraint to date, and comparable to those from
independent probes such as the Ly$\alpha$ forest and Milky Way satellite
galaxies.</description><subject>Physics - Cosmology and Nongalactic Astrophysics</subject><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2024</creationdate><recordtype>article</recordtype><sourceid>GOX</sourceid><recordid>eNpVkL1OwzAURr0woMIDMHFfIMH5sWPYUMVPUSSGRmKMbuLr1CJxwHEjuvHotIGF6VvOd4bD2FXC41wJwW_Qf9k5TnMuYp7IlJ-z75e3bQUluYk0fO5xQg8a_TsMGAJ5mPZ-pgNsNnewDX50HU0BOo-zDRjs6LCH_ni2roPeDjbA6CDs6J_DeCKYgiccFo5cF3YQxiMU6IKdGewnuvzbFaseH6r1c1S-Pm3W92WEsuBRgUWaKZWbVjWUo0i0zDPZEMqmFUZobRKtNU-USW8JRS6xMG2qRCYpyUyqshW7_tUuCeoPbwf0h_qUol5SZD9UPlvM</recordid><startdate>20240502</startdate><enddate>20240502</enddate><creator>Keeley, Ryan E</creator><creator>Nierenberg, Anna M</creator><creator>Gilman, Daniel</creator><creator>Gannon, Charles</creator><creator>Birrer, Simon</creator><creator>Treu, Tommaso</creator><creator>Benson, Andrew J</creator><creator>Du, Xiaolong</creator><creator>Abazajian, K. N</creator><creator>Anguita, T</creator><creator>Bennert, V. N</creator><creator>Djorgovski, S. G</creator><creator>Gupta, K. K</creator><creator>Hoenig, S. F</creator><creator>Kusenko, A</creator><creator>Lemon, C</creator><creator>Malkan, M</creator><creator>Motta, V</creator><creator>Moustakas, L. A</creator><creator>Oh, M. S. H</creator><creator>Sluse, D</creator><creator>Stern, D</creator><creator>Wechsler, R. H</creator><scope>GOX</scope></search><sort><creationdate>20240502</creationdate><title>JWST Lensed quasar dark matter survey II: Strongest gravitational lensing limit on the dark matter free streaming length to date</title><author>Keeley, Ryan E ; Nierenberg, Anna M ; Gilman, Daniel ; Gannon, Charles ; Birrer, Simon ; Treu, Tommaso ; Benson, Andrew J ; Du, Xiaolong ; Abazajian, K. N ; Anguita, T ; Bennert, V. N ; Djorgovski, S. G ; Gupta, K. K ; Hoenig, S. F ; Kusenko, A ; Lemon, C ; Malkan, M ; Motta, V ; Moustakas, L. A ; Oh, M. S. H ; Sluse, D ; Stern, D ; Wechsler, R. H</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a670-7a723884fc8be4a51d6436bea6bc5f5ddf1ddd018f29ea546a7fc28536e13f283</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2024</creationdate><topic>Physics - Cosmology and Nongalactic Astrophysics</topic><toplevel>online_resources</toplevel><creatorcontrib>Keeley, Ryan E</creatorcontrib><creatorcontrib>Nierenberg, Anna M</creatorcontrib><creatorcontrib>Gilman, Daniel</creatorcontrib><creatorcontrib>Gannon, Charles</creatorcontrib><creatorcontrib>Birrer, Simon</creatorcontrib><creatorcontrib>Treu, Tommaso</creatorcontrib><creatorcontrib>Benson, Andrew J</creatorcontrib><creatorcontrib>Du, Xiaolong</creatorcontrib><creatorcontrib>Abazajian, K. N</creatorcontrib><creatorcontrib>Anguita, T</creatorcontrib><creatorcontrib>Bennert, V. N</creatorcontrib><creatorcontrib>Djorgovski, S. G</creatorcontrib><creatorcontrib>Gupta, K. K</creatorcontrib><creatorcontrib>Hoenig, S. F</creatorcontrib><creatorcontrib>Kusenko, A</creatorcontrib><creatorcontrib>Lemon, C</creatorcontrib><creatorcontrib>Malkan, M</creatorcontrib><creatorcontrib>Motta, V</creatorcontrib><creatorcontrib>Moustakas, L. A</creatorcontrib><creatorcontrib>Oh, M. S. H</creatorcontrib><creatorcontrib>Sluse, D</creatorcontrib><creatorcontrib>Stern, D</creatorcontrib><creatorcontrib>Wechsler, R. H</creatorcontrib><collection>arXiv.org</collection></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext_linktorsrc</fulltext></delivery><addata><au>Keeley, Ryan E</au><au>Nierenberg, Anna M</au><au>Gilman, Daniel</au><au>Gannon, Charles</au><au>Birrer, Simon</au><au>Treu, Tommaso</au><au>Benson, Andrew J</au><au>Du, Xiaolong</au><au>Abazajian, K. N</au><au>Anguita, T</au><au>Bennert, V. N</au><au>Djorgovski, S. G</au><au>Gupta, K. K</au><au>Hoenig, S. F</au><au>Kusenko, A</au><au>Lemon, C</au><au>Malkan, M</au><au>Motta, V</au><au>Moustakas, L. A</au><au>Oh, M. S. H</au><au>Sluse, D</au><au>Stern, D</au><au>Wechsler, R. H</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>JWST Lensed quasar dark matter survey II: Strongest gravitational lensing limit on the dark matter free streaming length to date</atitle><date>2024-05-02</date><risdate>2024</risdate><abstract>This is the second in a series of papers in which we use JWST MIRI multiband
imaging to measure the warm dust emission in a sample of 31 multiply imaged
quasars, to be used as a probe of the particle nature of dark matter. We
present measurements of the relative magnifications of the strongly lensed warm
dust emission in a sample of 9 systems. The warm dust region is compact and
sensitive to perturbations by populations of halos down to masses $\sim 10^6$
M$_{\odot}$. Using these warm dust flux-ratio measurements in combination with
5 previous narrow-line flux-ratio measurements, we constrain the halo mass
function. In our model, we allow for complex deflector macromodels with
flexible third and fourth-order multipole deviations from ellipticity, and we
introduce an improved model of the tidal evolution of subhalos. We constrain a
WDM model and find an upper limit on the half-mode mass of $10^{7.6} M_\odot$
at posterior odds of 10:1. This corresponds to a lower limit on a thermally
produced dark matter particle mass of 6.1 keV. This is the strongest
gravitational lensing constraint to date, and comparable to those from
independent probes such as the Ly$\alpha$ forest and Milky Way satellite
galaxies.</abstract><doi>10.48550/arxiv.2405.01620</doi><oa>free_for_read</oa></addata></record> |
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| title | JWST Lensed quasar dark matter survey II: Strongest gravitational lensing limit on the dark matter free streaming length to date |
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