The Relativistic Universe: From Classical to Quantum

Black Hole Accretion is all about Sub-Keplerian Flows.- Radiative Acceleration of Relativistic Jets from Accretion Disks around Black Holes.- Noisy Accretion Flows.- Bondi Flow from Various Perspectives.- Dissipative Shocks in Accretion Flows: A Theoretical Forecast of the Spectral State Transitions in Black Hole X-ray Binaries.- Extreme Magnetic Fields around Black Holes.- Study of Accretion Disks around Black Holes with Two Types of Gas Inflows.- Universality of Coronal Properties in Accreting Black Holes.- Mode of Accretion and Jet Power in Episodic AGN Jets.- Can Morphological Dichotomy in Radio Galaxies be resolved through Galactic Potential−Induced Shocks.- Mean Field Dynamo: Beyond MHD.- General Relativistic Hydrodynamic Simulations around Accreting Black Holes.- Towards a Theory of Hydromagnetic Turbulence with Higher Order Fluid Moments.- Accretion Disk-Outflow/Jet and Hard State ULXs.- Magnetically Arrested Advective Accretion Flows and Jets/Outflows around Stellar Mass Black Holes: Explaining Hard State ULXs with GRMHD Simulations.- X-ray Observations of Black Hole Sources.- Light Curves and HID Signatures of Recurrent Black Hole X-ray Binary Sources.- QPOs in Compact Sources as a Non-Linear Hydrodynamical Resonance: Determining Spin of Compact Objects.- Estimation of Spin Parameters of Stellar Mass Black Holes: LMC X-1, LMC X-3 and GX 339-4.- Decoding the Deterministic Nature of Black Hole IGR J17091–3624.- Recent Observational and Theoretical Progress in the Study of Gamma-Ray Bursts.- Multi-Temperature Blackbody Emission in GRB 170409A. Ten Years of Searching for Relics of AGN Jet Feedback through RAD@home Citizen Science.- UV Star Formation Properties of NGC 1097.- Simultaneous Optical to X-ray Spectra of OJ 287 and X-ray Spectral Changes.- On the Origin of Merging Compact Object Binaries.- Observational Imprints of Accretion Disk on Observed GravitationalWave Data from LISA.- Can we Detect Super-Chandrasekhar White Dwarfs via Continuous Gravitational Waves.- Was it Really a Kerr Black Hole that EHT Imaged in 2019.- Exploring Magnetic Field Limits in Anisotropic Neutron Stars

through GW190814 Tidal Deformability.- Observational Mass-Radius Relation for Magnetized White Dwarfs.- Simulating Super-Chandrasekhar White Dwarfs.- Ultralight Dark Matter - A Novel proposal.- The Origin of Cosmic Rays: An Enduring Mystery in Physics.- A Glitch in Gravity: Cosmic Lorentz-Violation from Fiery Big Bang to Glacial Heat Death.- Inference of Hubble Constant using Standard Sirens and Reconstructed Matter Density Field.- Novel Understanding of Cosmological Phenomena using Fast Radio Bursts.- Cosmic Phase Transitions in a Supercomputer.- Quantum Correlations in Neutrino and Neutral Meson Oscillations.- Influence of Gravity on the Quantum Speed Limit in Neutrino Oscillations.- Increasing Quantum Speed Limit of Relativistic Electron via Non-Uniform Magnetic Field.- Affine Connection and Quantum Theory.- Holographic Approach to Anomalous Transport in a Massive 𝑈(1)Gauge Theory.- Holographic Fermions in Nonlinear Arcsin Electrodynamics.- A Covariant Approach to the Berry Phase Arising due to Einstein Gravity.- Black Hole Thermodynamics in Modified Gravity.- Faster Rate of Hawking Radiation in Modified Gravity Constraining Dark Matter.- Deciphering Interstellar Ice Morphology: Atomistic Simulations Reveal the Complex Behavior of Ethanethiol.- Representation of Continuum Equations in Physical Components for Arbitrary Curved Surfaces Appearing in Biophysical Modeling.- Black Holes, White Dwarfs, Neutron Stars, related Fluid Mechanics and Nuclear Astrophysics: My Research Journey from 1997 to.

• Erscheinungsdatum: 04.09.2025
• Autor/Autorin: Shubhrangshu Ghosh
• Reihe: Springer Nature Proceedings excluding Computer Science
• Format: E-Book
• Dateiformat: PDF
• Kopierschutz: Wasserzeichen
• Dateigröße: 70.4 MB
• Verlag: SPRINGER
• Sprache: Englisch
• Umfang: 616 Seiten
• ISBN: 9783031901867
• Lieferung: Sofort per Download
• Hinweis: Sofort per Download lieferbar. Kein physischer Versand.
• Kompatibilität: Lesbar auf Geräten und Apps mit PDF-Unterstützung.