Image rotation from lensing. (English) Zbl 1480.83059


83C50 Electromagnetic fields in general relativity and gravitational theory
78A45 Diffraction, scattering
85A25 Radiative transfer in astronomy and astrophysics
85A15 Galactic and stellar structure
85A05 Galactic and stellar dynamics
53C22 Geodesics in global differential geometry
Full Text: DOI arXiv


[1] Kronberg, P. P.; Dyer, C. C.; Burbidge, E. M.; Junkkarinen, V. T., A technique for using radio jets as extended gravitational lensing probes, ApJ, 367, L1-4 (1991)
[2] Stil, J. M.; Krause, M.; Beck, R.; Taylor, A. R., The integrated polarization of spiral galaxy disks, ApJ, 693, 1392-1403 (2009)
[3] Huff, E. M.; Krause, E.; Eifler, T.; Fang, X.; George, M. R.; Schlegel, D., Cosmic shear without shape noise (2013)
[4] Mahatma, V. H.; Hardcastle, M. J.; Harwood, J.; O’Sullivan, S. P.; Heald, G.; Horellou, C.; Smith, D. J B., A low-frequency study of linear polarization in radio galaxies, Mon. Not. R. Astron. Soc., 502, 273-292 (2020)
[5] Gardner, F. F.; Whiteoak, J. B., The polarization of cosmic radio waves, Annu. Rev. Astron. Astrophys., 4, 245 (1966)
[6] Di Dio, E.; Durrer, R.; Fanizza, G.; Marozzi, G., Rotation of the CMB polarization by foreground lensing, Phys. Rev. D, 100, 043508 (2019)
[7] Perlick, V., Gravitational lensing from a spacetime perspective, Living Rev. Relativ., 7, 9 (2004) · Zbl 1071.83009
[8] Sereno, M., Detecting gravitomagnetism with rotation of polarization by a gravitational lens, Mon. Not. R. Astron. Soc., 356, 381-385 (2005)
[9] Sereno, M., Gravitational Faraday rotation in a weak gravitational field, Phys. Rev. D, 69, 087501 (2004)
[10] Thomas, D. B.; Whittaker, L.; Camera, S.; Brown, M. L., Estimating the weak-lensing rotation signal in radio cosmic shear surveys, Mon. Not. R. Astron. Soc., 470, 3131-3148 (2017)
[11] Whittaker, L.; Brown, M. L.; Battye, R. A., A demonstration of position angle-only weak lensing shear estimators on the GREAT3 simulations, Mon. Not. R. Astron. Soc., 454, 2154-2165 (2015)
[12] Whittaker, L.; Brown, M. L.; Battye, R. A., Weak lensing using only galaxy position angles, Mon. Not. R. Astron. Soc., 445, 1836-1857 (2014)
[13] Brown, M. L.; Battye, R. A., Polarization as an indicator of intrinsic alignment in radio weak lensing, Mon. Not. Roy. Astron. Soc., 410, 2057 (2011)
[14] Schneider, P.; Falco, E.; Ehlers, J., Gravitational Lenses (1992), Berlin: Springer, Berlin
[15] Fleury, P., Light propagation in inhomogeneous and anisotropic cosmologies, PhD thesis (2015), Paris U.
[16] Sachs, R. K., Gravitational waves in general relativity. 6. The outgoing radiation condition, Proc. Roy. Soc. Lond., A264, 309-338 (1961) · Zbl 0098.19204
[17] Straumann, N., General Relativity (2013), Berlin: Springer, Berlin
[18] Chandrasekhar, S., The Mathematical Theory of Black Holes (1983), Oxford: Clarendon, Oxford · Zbl 0511.53076
[19] Lepori, F.; Adamek, J.; Durrer, R.; Clarkson, C.; Coates, L., Weak-lensing observables in relativistic N-body simulations, Mon. Not. Roy. Astron. Soc., 497, 2078-2095 (2020)
[20] Renzini, A. I.; Contaldi, C. R.; Heavens, A., Mapping weak lensing distortions in the Kerr metric, Phys. Rev. D, 95, 124047 (2017)
[21] Torrey, P., An analysis of the evolving comoving number density of galaxies in hydrodynamical simulations, Mon. Not. R. Astron. Soc., 454, 2770-2786 (2015)
[22] Oguri, M., Strong gravitational lensing of explosive transients, Rep. Prog. Phys., 82, 126901 (2019)
[23] Bernardi, M.; Shankar, F.; Hyde, J. B.; Mei, S.; Marulli, F.; Sheth, R. K., Galaxy luminosities, stellar masses, sizes, velocity dispersions as a function of morphological type, Mon. Not. Roy. Asron. Soc., 2087 (2010)
[24] Peacock, J. A., Cosmological Physics (1999), Cambridge: Cambridge University Press, Cambridge · Zbl 0952.83002
[25] Chen, C-Y; Hwang, C-Y; Ko, C-M, Ellipticities of elliptical galaxies in different environments, ApJ, 830, 123 (2016)
[26] Kronberg, P. P., Extragalactic magnetic fields, Rep. Prog. Phys., 57, 325-382 (1994)
[27] Francfort, J.; Cusin, G.; Durrer, R.
[28] Torrey, P. (2019)
[29] Cusin, G.; Durrer, R.; Dvorkin, I., Strong and weak lensing of gravitational waves: a semi-analytical approach (2019)
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