Double dark matter vision - Publikationsliste

Double dark matter vision: twice the number of compact-source lenses with narrow-line lensing and the WFC3 grism

Research output: Contribution to journal › Journal article › Research › peer-review

Standard

Double dark matter vision : twice the number of compact-source lenses with narrow-line lensing and the WFC3 grism. / Nierenberg, A. M.; Gilman, D.; Treu, T.; Brammer, G.; Birrer, S.; Moustakas, L.; Agnello, A.; Anguita, T.; Fassnacht, C. D.; Motta, Francis; Peter, A. H. G.; Sluse, D.

In: Monthly Notices of the Royal Astronomical Society, Vol. 492, No. 4, 03.2020, p. 5314-5335.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Nierenberg, AM, Gilman, D, Treu, T, Brammer, G, Birrer, S, Moustakas, L, Agnello, A, Anguita, T, Fassnacht, CD, Motta, F, Peter, AHG & Sluse, D 2020, 'Double dark matter vision: twice the number of compact-source lenses with narrow-line lensing and the WFC3 grism', Monthly Notices of the Royal Astronomical Society, vol. 492, no. 4, pp. 5314-5335. https://doi.org/10.1093/mnras/stz3588

APA

Nierenberg, A. M., Gilman, D., Treu, T., Brammer, G., Birrer, S., Moustakas, L., Agnello, A., Anguita, T., Fassnacht, C. D., Motta, F., Peter, A. H. G., & Sluse, D. (2020). Double dark matter vision: twice the number of compact-source lenses with narrow-line lensing and the WFC3 grism. Monthly Notices of the Royal Astronomical Society, 492(4), 5314-5335. https://doi.org/10.1093/mnras/stz3588

Vancouver

Nierenberg AM, Gilman D, Treu T, Brammer G, Birrer S, Moustakas L et al. Double dark matter vision: twice the number of compact-source lenses with narrow-line lensing and the WFC3 grism. Monthly Notices of the Royal Astronomical Society. 2020 Mar;492(4):5314-5335. https://doi.org/10.1093/mnras/stz3588

Author

Nierenberg, A. M. ; Gilman, D. ; Treu, T. ; Brammer, G. ; Birrer, S. ; Moustakas, L. ; Agnello, A. ; Anguita, T. ; Fassnacht, C. D. ; Motta, Francis ; Peter, A. H. G. ; Sluse, D. / Double dark matter vision : twice the number of compact-source lenses with narrow-line lensing and the WFC3 grism. In: Monthly Notices of the Royal Astronomical Society. 2020 ; Vol. 492, No. 4. pp. 5314-5335.

Bibtex

@article{02e6ecc2366f4a808b7379fe81f75802,

title = "Double dark matter vision: twice the number of compact-source lenses with narrow-line lensing and the WFC3 grism",

abstract = "The magnifications of compact-source lenses are extremely sensitive to the presence of low mass dark matter haloes along the entire sightline from the source to the observer. Traditionally, the study of dark matter structure in compact-source strong gravitational lenses has been limited to radio-loud systems, as the radio emission is extended and thus unaffected by microlensing which can mimic the signal of dark matter structure. An alternate approach is to measure quasar nuclear-narrow-line emission, which is free from microlensing and present in virtually all quasar lenses. In this paper, we double the number of systems which can he used for gravitational lensing analyses by presenting measurements of narrow-line emission from a sample of eight quadruply imaged quasar lens systems, WGD J0405-3308, HS 0810+2554, RX.10911+0551, SDSS J1330+1810, PS J1606-2333, WFI 2026-4536, WFI 2033-4723, and WGD J2038-4008. We describe our updated grism spectral modelling pipeline, which we use to measure narrow-line fluxes with uncertainties of 2-10 per cent, presented here. We fit the lensed image positions with smooth mass models and demonstrate that these models fail to produce the observed distribution of image fluxes over the entire sample of lenses. Furthermore, typical deviations are larger than those expected from macromodel uncertainties. This discrepancy indicates the presence of perturbations caused by small-scale dark matter structure. The interpretation of this result in terms of dark matter models is presented in a companion paper.",

keywords = "gravitational lensing: strong, galaxies: dwarf, galaxies: haloes, dark matter, INTEGRAL FIELD SPECTROSCOPY, STAR-FORMATION HISTORIES, BROAD EMISSION-LINES, EARLY-TYPE GALAXIES, EDGE-ON DISC, GRAVITATIONAL LENSES, SATELLITE GALAXIES, DWARF GALAXIES, MASS SUBSTRUCTURE, II EMISSION",

author = "Nierenberg, {A. M.} and D. Gilman and T. Treu and G. Brammer and S. Birrer and L. Moustakas and A. Agnello and T. Anguita and Fassnacht, {C. D.} and Francis Motta and Peter, {A. H. G.} and D. Sluse",

year = "2020",

month = mar,

doi = "10.1093/mnras/stz3588",

language = "English",

volume = "492",

pages = "5314--5335",

journal = "Royal Astronomical Society. Monthly Notices",

issn = "0035-8711",

publisher = "Oxford University Press",

number = "4",

}

RIS

TY - JOUR

T1 - Double dark matter vision

T2 - twice the number of compact-source lenses with narrow-line lensing and the WFC3 grism

AU - Nierenberg, A. M.

AU - Gilman, D.

AU - Treu, T.

AU - Brammer, G.

AU - Birrer, S.

AU - Moustakas, L.

AU - Agnello, A.

AU - Anguita, T.

AU - Fassnacht, C. D.

AU - Motta, Francis

AU - Peter, A. H. G.

AU - Sluse, D.

PY - 2020/3

Y1 - 2020/3

N2 - The magnifications of compact-source lenses are extremely sensitive to the presence of low mass dark matter haloes along the entire sightline from the source to the observer. Traditionally, the study of dark matter structure in compact-source strong gravitational lenses has been limited to radio-loud systems, as the radio emission is extended and thus unaffected by microlensing which can mimic the signal of dark matter structure. An alternate approach is to measure quasar nuclear-narrow-line emission, which is free from microlensing and present in virtually all quasar lenses. In this paper, we double the number of systems which can he used for gravitational lensing analyses by presenting measurements of narrow-line emission from a sample of eight quadruply imaged quasar lens systems, WGD J0405-3308, HS 0810+2554, RX.10911+0551, SDSS J1330+1810, PS J1606-2333, WFI 2026-4536, WFI 2033-4723, and WGD J2038-4008. We describe our updated grism spectral modelling pipeline, which we use to measure narrow-line fluxes with uncertainties of 2-10 per cent, presented here. We fit the lensed image positions with smooth mass models and demonstrate that these models fail to produce the observed distribution of image fluxes over the entire sample of lenses. Furthermore, typical deviations are larger than those expected from macromodel uncertainties. This discrepancy indicates the presence of perturbations caused by small-scale dark matter structure. The interpretation of this result in terms of dark matter models is presented in a companion paper.

AB - The magnifications of compact-source lenses are extremely sensitive to the presence of low mass dark matter haloes along the entire sightline from the source to the observer. Traditionally, the study of dark matter structure in compact-source strong gravitational lenses has been limited to radio-loud systems, as the radio emission is extended and thus unaffected by microlensing which can mimic the signal of dark matter structure. An alternate approach is to measure quasar nuclear-narrow-line emission, which is free from microlensing and present in virtually all quasar lenses. In this paper, we double the number of systems which can he used for gravitational lensing analyses by presenting measurements of narrow-line emission from a sample of eight quadruply imaged quasar lens systems, WGD J0405-3308, HS 0810+2554, RX.10911+0551, SDSS J1330+1810, PS J1606-2333, WFI 2026-4536, WFI 2033-4723, and WGD J2038-4008. We describe our updated grism spectral modelling pipeline, which we use to measure narrow-line fluxes with uncertainties of 2-10 per cent, presented here. We fit the lensed image positions with smooth mass models and demonstrate that these models fail to produce the observed distribution of image fluxes over the entire sample of lenses. Furthermore, typical deviations are larger than those expected from macromodel uncertainties. This discrepancy indicates the presence of perturbations caused by small-scale dark matter structure. The interpretation of this result in terms of dark matter models is presented in a companion paper.

KW - gravitational lensing: strong

KW - galaxies: dwarf

KW - galaxies: haloes

KW - dark matter

KW - INTEGRAL FIELD SPECTROSCOPY

KW - STAR-FORMATION HISTORIES

KW - BROAD EMISSION-LINES

KW - EARLY-TYPE GALAXIES

KW - EDGE-ON DISC

KW - GRAVITATIONAL LENSES

KW - SATELLITE GALAXIES

KW - DWARF GALAXIES

KW - MASS SUBSTRUCTURE

KW - II EMISSION

U2 - 10.1093/mnras/stz3588

DO - 10.1093/mnras/stz3588

M3 - Journal article

VL - 492

SP - 5314

EP - 5335

JO - Royal Astronomical Society. Monthly Notices

JF - Royal Astronomical Society. Monthly Notices

SN - 0035-8711

IS - 4

ER -

ID: 247938757

DAWN