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Gravastar
String Theory, QCD and Black Holes
Exotic Compact Objects Interacting with Fundamental Fields Engineering
SNOWMASS21-TF1 TF0-057.Pdf 409.50KB 2020-08-31 21:46:42
Arxiv:2010.05354V1 [Gr-Qc] 11 Oct 2020
Arxiv:1607.03593V1 [Gr-Qc] 13 Jul 2016 Hc Ssilukona Ula N H Super-Nuclear the to and Core, Nuclear Used Densities
Isotropic Gravastar Model in Rastall Gravity
The Unique Potential of Extreme Mass-Ratio Inspirals for Gravitational-Wave Astronomy 1, 2 3, 4 Christopher P
Table of Contents (Print)
How to Tell a Gravastar from a Black Hole
Astronomy February 18, 2013
The Digital Space Structure, Superconductor, and Superstar
Approximate Universal Relations for Neutron Stars and Quark Stars
Did GW150914 Produce a Rotating Gravastar?
Gravitational-Wave Signature of a Thin-Shell Gravastar
Dark Energy Stars: Stable Configurations
New Horizons in String Theory
Title Can Accretion Disk Properties Distinguish Gravastars From
Black Holes As Bubbles of Ads Arxiv:1705.10172V3 [Hep-Th] 9 Oct
Top View
Testing Strong-Field Gravity with Space-Based Detectors
Black Holes in General Relativity
Charged Gravastars with Conformal Motion in F (R, T) Gravity
Arxiv: Testing the Nature of Dark Compact Objects: a Status Report
Dark Energy Stars with Phantom Field
Probing the Stability of Gravastars by Dropping Dust Shells Onto Them Merse E Gáspár, István Rácz
Searching for Echoes of Gravitational Waves from the Coalescence of Exotic Compact Objects: a Bayesian Approach
Study of Gravastars Under F(T) Gravity
Gravitational Wave Signatures of the Absence of an Event Horizon: Nonradial Oscillations of a Thin-Shell Gravastar
Classical Collapse to Black Holes and Quantum Bounces: a Review
Non-Quiescent X-Ray Emission from Neutron Stars and Black Holes∗
Observatories, and Community DRAFT Cosmic Explorer Technical Report CE–P2100003–V3 June 2021 Draft Circulation
Quantum Black Holes in the Sky
Arxiv:0902.0217V1 [Gr-Qc] 2 Feb 2009
Limits Upon the Gravastar Model from Accreting Black Holes
Study of Gravastars in Rastall Gravity
Energy of the Particle Falling Onto the Surface of the Gravastar Dmitri Khokhlov
Quantum Mechanical Explanation for Dark Energy, Cosmic Coincidence, Flatness, Age, and Size of the Universe
GW190814: Gravitational Waves from the Coalescence of a 23 Solar Mass Black Hole with a 2.6 Solar Mass Compact Object
1 Tidal Accelerometry
Stable Gravastars: Guilfoyle's Electrically Charged Solutions
Non-Singular Black Holes Interiors Need Physics Beyond the Standard Model
Pos(P2GC)017 ∗
[email protected]
Speaker
Arxiv:2104.00074V2 [Gr-Qc] 25 Jul 2021
Stable, Spherical and Thin Fluid Shells †
String Theory, QCD and Black Holes