“Gravitational Waves” Science-Research, February 2022, Week 4 — summary from Astrophysics Data System

Astrophysics Data System — summary generated by Brevi Assistant

The major goal of the current wavelike ionosphere disturbance dynamics research studies is to get details regarding the source of the disturbance generation. Orbital injection of artificial barium clouds seems the efficient resource of acoustic gravity wave generation at upper ionosphere heights. We define the design of a gravitational wave timing selection, unique plan that can be used to look for low-frequency gravitational waves by monitoring constant gravitational waves at higher frequencies. The low-frequency extension of level of sensitivity does not require any kind of experimental design adjustment to space-based gravitational wave detectors, and can be accomplished with the data items that would already be gathered by them. Motivated by recording presumptive quantum results at the horizon scale, we model the black hole horizon as a membrane with variations complying with a Gaussian account. On a similar note, we derive the perspective limit condition for a braneworld black hole that might originate from quantum modifications on the brane. The Hubble tension that the basic Λ CDM model is enduring from can be solved with pre-recombination very early dark energy. We find, integrating BICEP/Keck with Planck18 CMB and baryon acoustic oscillation data, that the models with larger Hubble continuous H_0 will have tighter top bound on r and resolution H_0∼73 km/sMpc of the Hubble tension tightens the upper bound to.

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Source texts:

• https://ui.adsabs.harvard.edu/abs/1998mrat.conf.111R/abstract — Acoustic Gravity Wave (AGW) generation during the barium injection experiments.
• https://ui.adsabs.harvard.edu/abs/2022PhRvD.105d4005B/abstract — Gravitational wave timing array.
• https://ui.adsabs.harvard.edu/abs/2022arXiv220209111C/abstract — Implications of the quantum nature of the black hole horizon on the gravitational-wave ringdown.
• https://ui.adsabs.harvard.edu/abs/2022arXiv220210055Y/abstract — Improved constraint on primordial gravitational waves in light of the Hubble tension and BICEP Keck.
• https://ui.adsabs.harvard.edu/abs/2021JCAP.11.032C/abstract — Intensity and anisotropies of the stochastic gravitational wave background from merging compact binaries in galaxies.
• https://ui.adsabs.harvard.edu/abs/2022arXiv220209382W/abstract — Probing neutron stars with the full pre-merger and post-merger gravitational wave signal from binary coalescences.

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