Article citationsMore>>
Nierenberg, A.M., Gilman, D., Treu, T., Brammer, G., Birrer, S., Moustakas, L., Agnello, A., Anguita, T., Fassnacht, C.D., Motta, V., Peter, A.H.G. and Sluse, D. (2019) 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, 5314-5335.
https://doi.org/10.1093/mnras/stz3588
has been cited by the following article:
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TITLE:
Relativistic Supernova Blast Waves Exhibit Properties of Gravitational Lenses and the Hubble Constant
AUTHORS:
Paul Marko
KEYWORDS:
Supernova, Plasma, Gravitational Lens, Einstein Cross, Hubble Constant
JOURNAL NAME:
Journal of High Energy Physics, Gravitation and Cosmology,
Vol.9 No.4,
October
31,
2023
ABSTRACT: Simulations based on Supernova (SN) observations predict several galactic SN explosions (SNe) can occur every century. Unlike SNes within the Interstellar Medium (ISM) where ambient gas generally absorbs blast waves within a million years, SNes occurring in a rarified environment outside of the ISM generate blast waves which remain in a relativistic free expansion phase for more extended periods. The SN blast wave forms an expanding spherical shell and when multiple blast waves intersect, the overlapping region naturally takes the form of a ring, an arc, or an Einstein Cross structure. The analysis shows the relativistic plasma establishes a medium with permeability which drives the index of refraction greater than 1. As a result, when a shock discontinuity forms in the overlapping region, light is reflected from the host galaxy which exposes the intersecting blast wave regions. The expanding shells are shown to induce an achromatic redshift to the reflected light consistent with those measured for gravitational lenses. Further, it is shown that a Hubble equation for a blast wave around the Milky Way Galaxy can be parameterized to approximate measured redshifts over a wide range of distances.
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