Mohammed M. Khalil
Albert Einstein Institution
34 Papers
138 Citations
Mohammed M. Khalil is an academic researcher from Albert Einstein Institution. The author has contributed to research in topics: Hawking radiation & Quantum gravity. The author has an hindex of 16, co-authored 26 publications. Previous affiliations of Mohammed M. Khalil include Banha University & Max Planck Society.
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Papers
GUP-Corrected Thermodynamics for all Black Objects and the Existence of Remnants
Mir Faizal,Mohammed M. Khalil +1 more
TL;DR: In this article, the generalized uncertainty principle (GUP) is used to correct the entropy of a black hole, and the GUP-corrected entropy-area relation is universal for all black objects.
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Gravitational Spin-Orbit Coupling through Third-Subleading Post-Newtonian Order: From First-Order Self-Force to Arbitrary Mass Ratios.
Andrea Antonelli,Chris Kavanagh,Mohammed M. Khalil,Mohammed M. Khalil,Jan Steinhoff,Justin Vines +5 more
TL;DR: First-order self-force (linear-in-mass-ratio) results are used to improve important ingredients of models of gravitational waves from spinning binaries, and the improvement in accuracy is demonstrated by comparing against aligned-spin numerical simulations of binary black holes.
Gravitational spin-orbit and aligned spin 1 − spin 2 couplings through third-subleading post-Newtonian orders
Andrea Antonelli,Chris Kavanagh,Mohammed M. Khalil,Mohammed M. Khalil,Jan Steinhoff,Justin Vines +5 more
TL;DR: In this article, the authors exploit the interplay between relativistic scattering and self-force theory to obtain the third-subleading (4.5PN) spin-orbit dynamics for generic spins.
A Proposal for Testing Gravity's Rainbow
TL;DR: In this article, the effect of the rainbow functions on the deflection of light, photon time delay, gravitational red-shift, and the weak-equivalence principle was investigated.
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Minimal length in quantum gravity and gravitational measurements
TL;DR: In this paper, a modification of the Schwarzschild metric based on the modified Hawking temperature derived from the Generalized Uncertainty Principle (GUP) was proposed, and the modified metric was used to calculate corrections to the deflection of light, time delay of light and perihelion precession.
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