ALMA Measurement of 10 kpc-scale Lensing Power Spectra towards the Lensed Quasar MG J0414+0534

The lensing power spectra for gravitational potential, astrometric shift, and convergence perturbations are powerful probes to investigate dark matter structures on small scales. We report the first lower and upper bounds of these lensing power spectra on angular scale \(\sim 1\)arcsec towards the a...

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Bibliographic Details
Published in:arXiv.org 2023-07
Main Authors: Kaiki Taro Inoue, Minezaki, Takeo, Matsushita, Satoki, Nakanishi, Koichiro
Format: Article
Language:English
Subjects:
Angular resolution
Cold dark matter
Continuum radiation
Convergence
Dwarf galaxies
Lenses
Microlenses
Perturbation
Power
Power spectra
Quasars
Radio jets (astronomy)
Radio telescopes
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Summary:The lensing power spectra for gravitational potential, astrometric shift, and convergence perturbations are powerful probes to investigate dark matter structures on small scales. We report the first lower and upper bounds of these lensing power spectra on angular scale \(\sim 1\)arcsec towards the anomalous quadruply lensed quasar MG\(\,\)J0414+0534 at a redshift \(z=2.639\). To obtain the spectra, we conducted observations of MG\(\,\)J0414+0534 using the Atacama Large Millimeter/submillimeter Array (ALMA) with high angular resolution (0.02 arcsec to 0.05 arcsec). We developed a new partially non-parametric method in which Fourier coefficients of potential perturbation are adjusted to minimize the difference between linear combinations of weighted mean de-lensed images. Using positions of radio jet components, extended dust emission on scales \(>1\,\)kpc, and mid-infrared flux ratios, the range of measured convergence, astrometric shift, and potential powers at an angular scale of \(\sim 1.1\)arcsec (corresponding to an angular wave number of \(l=1.2\times 10^6\) or \(\sim 9\,\)kpc in the primary lens plane) within \(1\,\sigma\) are \(\varDelta_\kappa=0.021-0.028\), \(\varDelta_\alpha =7-9\,\)mas, and $\varDelta_\psi=1.2-1.6\,$$\textrm{mas}^2\(, respectively. Our result is consistent with the predicted abundance of halos in the line of sight and subhalos in cold dark matter models. Our partially non-parametric lens models suggest a presence of a clump in the vicinity of object Y, a possible dusty dwarf galaxy and some small clumps in the vicinity of other lensed quadruple images. Although much fainter than the previous report, we detected weak continuum emission possibly from object Y with a peak flux of \)\sim 100\,\mu \textrm{Jy}\, \textrm{beam} ^{-1}\( at the \)\sim 4\,\sigma$ level.
ISSN:2331-8422
DOI:10.48550/arxiv.2109.01168