Surface gravity
View article: Quantum Gravity Observed with DISS Difravtive Interstellar Scintillation and Ricci curvature surpession
Quantum Gravity Observed with DISS Difravtive Interstellar Scintillation and Ricci curvature surpession Open
This paper outlines the observations and effects of quantum gravity through DISS Difravtive Interstellar Scintillation and Ricci curvature surpession in large Cosmological bodies i.e. black holes and white dwarf stars.
View article: Quantum Gravity Observed with DISS Difravtive Interstellar Scintillation and Ricci curvature surpession
Quantum Gravity Observed with DISS Difravtive Interstellar Scintillation and Ricci curvature surpession Open
This paper outlines the observations and effects of quantum gravity through DISS Difravtive Interstellar Scintillation and Ricci curvature surpession in large Cosmological bodies i.e. black holes and white dwarf stars.
View article: Cosmological Implications and Stability of $f\mathbb{(Q,T)}$ Gravity with Pilgrim Dark Energy Model
Cosmological Implications and Stability of $f\mathbb{(Q,T)}$ Gravity with Pilgrim Dark Energy Model Open
This manuscript endeavors to construct a pilgrim dark energy framework within the $f\mathbb{(Q,T)}$ gravity theory, employing a correspondence approach aligned with a non-interacting model that incorporates pressureless matter alongside a …
View article: Cosmological Implications and Stability of $f\mathbb{(Q,T)}$ Gravity with Pilgrim Dark Energy Model
Cosmological Implications and Stability of $f\mathbb{(Q,T)}$ Gravity with Pilgrim Dark Energy Model Open
This manuscript endeavors to construct a pilgrim dark energy framework within the $f\mathbb{(Q,T)}$ gravity theory, employing a correspondence approach aligned with a non-interacting model that incorporates pressureless matter alongside a …
View article: Deriving Newton's Gravitational Constant from Surface Eigenmodes in the Harmonic Scale Framework (HSF)
Deriving Newton's Gravitational Constant from Surface Eigenmodes in the Harmonic Scale Framework (HSF) Open
This document presents a complete derivation of Newtons gravitational constant G within the Harmonic Scale Framework (HSF).Instead of treating G as an unexplained empirical constant, HSF models gravity as a boundary driven interaction betw…
View article: Deriving Newton's Gravitational Constant from Surface Eigenmodes in the Harmonic Scale Framework (HSF)
Deriving Newton's Gravitational Constant from Surface Eigenmodes in the Harmonic Scale Framework (HSF) Open
This document presents a complete derivation of Newtons gravitational constant G within the Harmonic Scale Framework (HSF).Instead of treating G as an unexplained empirical constant, HSF models gravity as a boundary driven interaction betw…
View article: Quantum Coexistence and Effective Gravity on Galactic Scales
Quantum Coexistence and Effective Gravity on Galactic Scales Open
This short note records a working hypothesis that connects the ThermodynamicCoexistence Principle with possible large-scale modifications of gravitationalbehaviour in galaxies. It is intentionally speculative and is meant as a futureplaygr…
View article: Quantum Coexistence and Effective Gravity on Galactic Scales
Quantum Coexistence and Effective Gravity on Galactic Scales Open
This short note records a working hypothesis that connects the ThermodynamicCoexistence Principle with possible large-scale modifications of gravitationalbehaviour in galaxies. It is intentionally speculative and is meant as a futureplaygr…
View article: Deriving Newton's Gravitational Constant from Surface Eigenmodes in the Harmonic Scale Framework (HSF)
Deriving Newton's Gravitational Constant from Surface Eigenmodes in the Harmonic Scale Framework (HSF) Open
This document presents a complete derivation of Newtons gravitational constant G within the Harmonic Scale Framework (HSF).Instead of treating G as an unexplained empirical constant, HSF models gravity as a boundary driven interaction betw…
View article: Validating the 1D-3D coupling stellar models via Asteroseismology of 18 Kepler main-sequence stars
Validating the 1D-3D coupling stellar models via Asteroseismology of 18 Kepler main-sequence stars Open
Standard 1D stellar evolution model has poor descriptions of the near-surface layers of stars, and this can be improved by using the atmosphere model computed from 3D hydrodynamical simulations. In this work, we validated the model inferen…
View article: Golden-ratio compactification ansatz for the electroweak, 35.1 kHz and gravitational scales
Golden-ratio compactification ansatz for the electroweak, 35.1 kHz and gravitational scales Open
This document proposes a speculative idea that links three seemingly unrelated quantities— the electroweak energy scale, a narrow 35 kHz signal that might appear in ultra-stable mechanical or optical experiments, and the strength of Earth’…
View article: Predictions on gravity mode pulsations of collisional blue straggler stars in globular clusters
Predictions on gravity mode pulsations of collisional blue straggler stars in globular clusters Open
Blue straggler stars (BSSs) are exotic objects which, being the results of processes such as mass transfer, mergers or collisions, are considered key-objects to study the dynamics of their host clusters. While many studies on astrometric, …
View article: Deriving hourly diagnostic surface velocity fields considering inertia and an application in the Yellow Sea
Deriving hourly diagnostic surface velocity fields considering inertia and an application in the Yellow Sea Open
Surface currents play an important role in the transport of floating materials in the Yellow Sea, a region strongly influenced by tidal forcing and seasonal wind variability driven by the East Asian monsoon. While diagnostic models have be…
View article: Thermodynamics and $P$-$V$ Criticality of Charged AdS Black Holes with a Cloud of Strings in Kalb-Ramond Gravity
Thermodynamics and $P$-$V$ Criticality of Charged AdS Black Holes with a Cloud of Strings in Kalb-Ramond Gravity Open
We investigate the extended phase-space thermodynamics and $P$--$V$ criticality of electrically charged anti-de Sitter (AdS) black holes in Kalb--Ramond bumblebee gravity in the presence of a spherically symmetric cloud of strings. The bac…
View article: Stellar Parameters of BOSS M dwarfs in SDSS-V DR19
Stellar Parameters of BOSS M dwarfs in SDSS-V DR19 Open
We utilized the Stellar LAbel Machine (SLAM), a data-driven model based on Support Vector Regression, to derive stellar parameters ([Fe/H], $T_{\rm eff}$, and $\log{g}$) for SDSS-V M dwarfs using low-resolution optical spectra (R$\sim$2000…
View article: Surface Bound Maximum version 4.0
Surface Bound Maximum version 4.0 Open
This paper proposes a concrete, falsifiable modification to general relativity’s prediction of gravitational time dilation inside planetary bodies.While standard GR predicts that time runs slowest at a planet’s center, the Surface-Bound Ma…
View article: The Evolution of Jupiter and Saturn as a Function of the <i>R</i> <sub> <i>ρ</i> </sub> Parameter
The Evolution of Jupiter and Saturn as a Function of the <i>R</i> <sub> <i>ρ</i> </sub> Parameter Open
Computed using the APPLE planetary evolution code, we present updated evolutionary models for Jupiter and Saturn that incorporate helium rain, nonadiabatic thermal structures, and “fuzzy” extended heavy-element cores. Building on our previ…
View article: Automated all-sky detection of γ Doradus / δ Scuti hybrids in TESS data from positive unlabelled (PU) learning
Automated all-sky detection of γ Doradus / δ Scuti hybrids in TESS data from positive unlabelled (PU) learning Open
The Transiting Exoplanet Survey Satellite (TESS) mission has observed hundreds of millions of stars, substantially contributing to the available pool of high-precision photometric space data. Among them are the relatively rare $γ$ Doradus …
View article: Surface Bound Maximum version 3.9
Surface Bound Maximum version 3.9 Open
This paper proposes a concrete, falsifiable modification to general relativity’s prediction of gravitational time dilation inside planetary bodies.While standard GR predicts that time runs slowest at a planet’s center, the Surface-Bound Ma…
View article: Surface Bound Maximum version 3.9
Surface Bound Maximum version 3.9 Open
This paper proposes a concrete, falsifiable modification to general relativity’s prediction of gravitational time dilation inside planetary bodies.While standard GR predicts that time runs slowest at a planet’s center, the Surface-Bound Ma…
View article: Stellar Parameters of BOSS M dwarfs in SDSS-V DR19
Stellar Parameters of BOSS M dwarfs in SDSS-V DR19 Open
We utilized the Stellar LAbel Machine (SLAM), a data-driven model based on Support Vector Regression, to derive stellar parameters ([Fe/H], $T_{\rm eff}$, and $\log{g}$) for SDSS-V M dwarfs using low-resolution optical spectra (R$\sim$2000…
View article: The complex inner disk of the Herbig Ae star HD 100453 with VLTI/MATISSE
The complex inner disk of the Herbig Ae star HD 100453 with VLTI/MATISSE Open
The inner regions of planet-forming disks hold invaluable insights for our understanding of planet formation. The disk around the Herbig star HD 100453 presents one such environment, with an inner disk that is significantly misaligned with…
View article: Review of "The Formulas for Calculating Surface Gravity and Rotational period of celestial Body and Black Hole in the A xial Spherical-Space"
Review of "The Formulas for Calculating Surface Gravity and Rotational period of celestial Body and Black Hole in the A xial Spherical-Space" Open
View article: On Modelling the Surfaces of Celestial Bodies in Quantum Gravity
On Modelling the Surfaces of Celestial Bodies in Quantum Gravity Open
We discuss how to model the surface of celestial bodies (such as stars) in quantum gravity to ensure the regularity of quantum corrections to classical solutions of general relativity at the surface of such bodies. Specifically, we use the…
View article: The complex inner disk of the Herbig Ae star HD 100453 with VLTI/MATISSE
The complex inner disk of the Herbig Ae star HD 100453 with VLTI/MATISSE Open
The inner regions of planet-forming disks hold invaluable insights for our understanding of planet formation. The disk around the Herbig star HD 100453 presents one such environment, with an inner disk that is significantly misaligned with…
View article: Emergent Short-Wave Gravity in Energy Resonance Field Theory (ERFT)
Emergent Short-Wave Gravity in Energy Resonance Field Theory (ERFT) Open
Complete - Reproducctible pipeline with ERFT field files from wich can be obtained the Emergent Short-Wave Gravity in Energy Resonance Field Theory (ERFT) as described on the following paper Paper: https://doi.org/10.5281/zenodo.17673538 A…
View article: Emergent Short-Wave Gravity in Energy Resonance Field Theory (ERFT)
Emergent Short-Wave Gravity in Energy Resonance Field Theory (ERFT) Open
Complete - Reproducctible pipeline with ERFT field files from wich can be obtained the Emergent Short-Wave Gravity in Energy Resonance Field Theory (ERFT) as described on the following paper Paper: https://doi.org/10.5281/zenodo.17673538 A…
View article: The evolution of accretor stars in binary systems due to accretion of increasingly helium-rich material
The evolution of accretor stars in binary systems due to accretion of increasingly helium-rich material Open
The recent discovery of examples of intermediate-mass helium stars has offered new insights into interacting binaries. These observations will allow significant improvements in our understanding of helium stars. However, in the creation of…
View article: Hyperion: Chaotic Rotation, Porous Structure, Surface Morphology, and Evolutionary History of Saturn's Irregular Icy Moon
Hyperion: Chaotic Rotation, Porous Structure, Surface Morphology, and Evolutionary History of Saturn's Irregular Icy Moon Open
Hyperion, Saturn's highly irregular and porous moon, exhibits chaotic rotation, sponge-like morphology, and a surface rich in water ice and complex organics. Cassini observations revealed that Hyperion has an extremely low bulk density (~0…
View article: Hyperion: Chaotic Rotation, Porous Structure, Surface Morphology, and Evolutionary History of Saturn's Irregular Icy Moon
Hyperion: Chaotic Rotation, Porous Structure, Surface Morphology, and Evolutionary History of Saturn's Irregular Icy Moon Open
Hyperion, Saturn's highly irregular and porous moon, exhibits chaotic rotation, sponge-like morphology, and a surface rich in water ice and complex organics. Cassini observations revealed that Hyperion has an extremely low bulk density (~0…