Coalescence (physics)
View article: Estimation of the MTOV precision for ET, CE, and NEMO from the post-merger of BNS coalescences
Estimation of the MTOV precision for ET, CE, and NEMO from the post-merger of BNS coalescences Open
The detection of the gravitational waves produced after the coalescence of two neutron stars is greatly anticipated because it will be able to provide information about matter in extreme conditions, especially if the remnant turns out to g…
View article: Seismic Station RA086 Statistical Analysis of Earthquake Data Using Shake Net and Grapher on the Global Seismic Activity: Analyzing Earthquake Patterns, Clustering, and Implications for Hazard Assessment
Seismic Station RA086 Statistical Analysis of Earthquake Data Using Shake Net and Grapher on the Global Seismic Activity: Analyzing Earthquake Patterns, Clustering, and Implications for Hazard Assessment Open
The paper examines earthquake activity in 2023 using data from the active seismic station RA086 in the city of São Tomé. Five thousand and twenty-four (5,224) events of earthquakes were observed and processed with ShakeNet software and Gra…
View article: Estimation of the MTOV precision for ET, CE, and NEMO from the post-merger of BNS coalescences
Estimation of the MTOV precision for ET, CE, and NEMO from the post-merger of BNS coalescences Open
The detection of the gravitational waves produced after the coalescence of two neutron stars is greatly anticipated because it will be able to provide information about matter in extreme conditions, especially if the remnant turns out to g…
View article: Thermo-coalescence model for light nuclei production in relativistic heavy-ion collisions
Thermo-coalescence model for light nuclei production in relativistic heavy-ion collisions Open
We employ a hybrid approach to describe the light nuclei production mechanism where the nucleons are assumed to be thermally produced, and are allowed to form light nuclei using a coalescence prescription. In this approach, we first fit tr…
View article: Deuteron yields near the QCD phase transition
Deuteron yields near the QCD phase transition Open
We investigate the influence of QCD phase transition and critical fluctuations of the critical end point (CEP) on the deuteron yield within the functional renormalization group (fRG) approach, by using the nucleon coalescence model and a l…
View article: Effects of Relative Humidity on Temperature Dynamics in Natural Ecosystems: Comparison of Measured and Model-Predicted Data
Effects of Relative Humidity on Temperature Dynamics in Natural Ecosystems: Comparison of Measured and Model-Predicted Data Open
Understanding the factors influencing temperature variations in natural ecosystems is crucial for processes such as species distribution, phenology, and carbon cycling. This article presents a theoretical framework that investigates the im…
View article: Influence of temperature, initial grain-boundary bubble density and grain structure on fission gas behaviour in UO$_2$: a 3D hybrid multiscale study
Influence of temperature, initial grain-boundary bubble density and grain structure on fission gas behaviour in UO$_2$: a 3D hybrid multiscale study Open
Fission gas swelling and release in UO$_2$ are governed by the coupled evolution of intragranular clusters and bubbles, migrating grain boundaries (GBs), triple junctions (TJs), and their eventual connection to a free surface (FS). We exte…
View article: Thermodynamic Phase Control of Poly(TFEMA) Nucleation and Surface Deposition in Supercritical CO2–Toluene
Thermodynamic Phase Control of Poly(TFEMA) Nucleation and Surface Deposition in Supercritical CO2–Toluene Open
The aim of this study was to investigate the nucleation, growth, and surface deposition of poly(2,2,2-trifluoroethyl methacrylate) [poly(TFEMA)] from the one-phase, cloud point, and two-phase regions of a supercritical CO2–toluene solvent.…
View article: A general framework for branch length estimation in Ancestral Recombination Graphs
A general framework for branch length estimation in Ancestral Recombination Graphs Open
Inference of Ancestral Recombination Graphs (ARGs) is of central interest in the analysis of genomic variation. ARGs can be specified in terms of topologies and coalescence times. The coalescence times are usually estimated using an inform…
View article: Gravity Emergence Model-Entropic Coalescence via Ratcheting
Gravity Emergence Model-Entropic Coalescence via Ratcheting Open
The Gravity Emergence Model (GEM), integrated within the Vacuum Energy Quanta Field (VEQF) Theory with Mass Emergence Model (MEM), redefines gravity as an emergent, entropy-driven thermodynamic process at mesoscopic scales l_q~ 1e-20m. Bui…
View article: Gravity Emergence Model-Entropic Coalescence via Ratcheting
Gravity Emergence Model-Entropic Coalescence via Ratcheting Open
The Gravity Emergence Model (GEM), integrated within the Vacuum Energy Quanta Field (VEQF) Theory with Mass Emergence Model (MEM), redefines gravity as an emergent, entropy-driven thermodynamic process at mesoscopic scales l_q~ 1e-20m. Bui…
View article: Multiple necking coalescence in graphene and graphene oxide reinforced electrospun PVDF partially hollow nanocomposite fibers with superplastic behavior
Multiple necking coalescence in graphene and graphene oxide reinforced electrospun PVDF partially hollow nanocomposite fibers with superplastic behavior Open
View article: Influence of temperature, initial grain-boundary bubble density and grain structure on fission gas behaviour in UO$_2$: a 3D hybrid multiscale study
Influence of temperature, initial grain-boundary bubble density and grain structure on fission gas behaviour in UO$_2$: a 3D hybrid multiscale study Open
Fission gas swelling and release in UO$_2$ are governed by the coupled evolution of intragranular clusters and bubbles, migrating grain boundaries (GBs), triple junctions (TJs), and their eventual connection to a free surface (FS). We exte…
View article: The Modelling of the Multiphase Flow Mechanics in Air Lubrication Systems and Their Interaction with Appendages: A Review
The Modelling of the Multiphase Flow Mechanics in Air Lubrication Systems and Their Interaction with Appendages: A Review Open
This review paper investigates the use of air lubrication to reduce ship hull skin frictional drag, a technology whose fundamental drag-reduction mechanisms and impact on seakeeping are increasingly being studied through Computational Flui…
View article: Non-Hermitian Quantum Tunneling: Phase Transitions and Emergent Topology
Non-Hermitian Quantum Tunneling: Phase Transitions and Emergent Topology Open
This paper explores the intricate interplay between quantum tunneling, phase transitions, and topology within the framework of non-Hermitian quantum mechanics. By moving beyond the constraint of Hermiticity, we uncover a rich landscape of …
View article: Small and Simple Molecular Structure Based Thermally Stable Ruthenium Precursor in Advancing Ruthenium ALD Process for Scaled Interconnect Metallization
Small and Simple Molecular Structure Based Thermally Stable Ruthenium Precursor in Advancing Ruthenium ALD Process for Scaled Interconnect Metallization Open
Ruthenium (Ru) via atomic layer deposition (ALD) has emerged as a promising alternative to copper‐interconnects. For the first time, a small yet simple molecular structure Ru precursor, [Ru(trimethylenemethane (TMM))( p ‐cymene)], with exc…
View article: Unlocking the Stabilization Potential of Tomato Pomace Particles: A Natural Bioactive Emulsifier for Oil‐in‐Water Pickering Emulsions
Unlocking the Stabilization Potential of Tomato Pomace Particles: A Natural Bioactive Emulsifier for Oil‐in‐Water Pickering Emulsions Open
Tomato pomace (TP) is a by‐product of the tomato processing industry that may offer an eco‐friendly alternative to conventional emulsifiers for stabilizing oil‐in‐water (O/W) Pickering emulsions. Composed mainly of peels and seeds, TP cont…
View article: Investigation of the Spectator Effect on Light Nuclei Production in Nucleus-Nucleus Collisions at High Baryon Density Region
Investigation of the Spectator Effect on Light Nuclei Production in Nucleus-Nucleus Collisions at High Baryon Density Region Open
The light nuclei yields and yield ratios, as sensitive probes of the QCD phase transition, have been precisely measured at various collision energies.However, due to limited detector acceptance, the full $p_{\rm T}$ integral yield often re…
View article: Outflow Interaction in Cep-E: Numerical Simulation and Observational Manifestation
Outflow Interaction in Cep-E: Numerical Simulation and Observational Manifestation Open
There is clear observational evidence that the main Class 0/I stages of the star formation process are associated with powerful collimated outflows (jets), which sometimes propagate up to distances as large as $10^{4-5}$ au scales in molec…
View article: Investigation of the Spectator Effect on Light Nuclei Production in Nucleus-Nucleus Collisions at High Baryon Density Region
Investigation of the Spectator Effect on Light Nuclei Production in Nucleus-Nucleus Collisions at High Baryon Density Region Open
The light nuclei yields and yield ratios, as sensitive probes of the QCD phase transition, have been precisely measured at various collision energies.However, due to limited detector acceptance, the full $p_{\rm T}$ integral yield often re…
View article: Outflow Interaction in Cep-E: Numerical Simulation and Observational Manifestation
Outflow Interaction in Cep-E: Numerical Simulation and Observational Manifestation Open
There is clear observational evidence that the main Class 0/I stages of the star formation process are associated with powerful collimated outflows (jets), which sometimes propagate up to distances as large as $10^{4-5}$ au scales in molec…
View article: Enhanced quantum sensing in time-modulated non-Hermitian systems
Enhanced quantum sensing in time-modulated non-Hermitian systems Open
View article: Universal Catalog of Gravitational Echo Delays from Black-Hole Merger Events
Universal Catalog of Gravitational Echo Delays from Black-Hole Merger Events Open
This technical report presents the first complete, model-independent catalog of predicted gravitational echo delays for all publicly available compact binary coalescence events detected by LIGO–Virgo–KAGRA. The predictions are derived from…
View article: Effects of Multi-scale Coupling on Particle Acceleration and Energy Partition in Magnetic Reconnection
Effects of Multi-scale Coupling on Particle Acceleration and Energy Partition in Magnetic Reconnection Open
The interplay between kinetic and macroscopic scales during magnetic reconnection is investigated using particle-in-cell simulations of magnetic island coalescence in the strongly-magnetized, relativistic pair plasma regime. For large syst…
View article: Quantifying the contributions of isolated and connected pores to soil permeability in alpine meadow soils
Quantifying the contributions of isolated and connected pores to soil permeability in alpine meadow soils Open
Study region: Typical alpine meadow soils on the central Qinghai-Tibet Plateau Study focus: This study applied the DHC-FVAM (Dual-Porosity Hydraulic Conductivity–Flow Velocity in Alpine Meadows) model to quantify contributions of connected…
View article: Plasma Memory Erasure Wave (PMEW): A Novel Mechanism for Suppressing Hydrodynamic Instabilities in Inertial Confinement Fusion by Selective Phase Randomization of Ablation Plasma
Plasma Memory Erasure Wave (PMEW): A Novel Mechanism for Suppressing Hydrodynamic Instabilities in Inertial Confinement Fusion by Selective Phase Randomization of Ablation Plasma Open
Plasma Memory Erasure Wave (PMEW) is a newly proposed mechanism for inertial confinement fusion (ICF) that removes the fundamental source of hydrodynamic instabilities.Instead of suppressing Rayleigh–Taylor (RT) growth after it be…
View article: Universal Catalog of Gravitational Echo Delays from Black-Hole Merger Events
Universal Catalog of Gravitational Echo Delays from Black-Hole Merger Events Open
This technical report presents the first complete, model-independent catalog of predicted gravitational echo delays for all publicly available compact binary coalescence events detected by LIGO–Virgo–KAGRA. The predictions are derived from…
View article: Influence of ambient temperature on cavitation bubble dynamics
Influence of ambient temperature on cavitation bubble dynamics Open
We examine how ambient temperature $T$ (23–90 $^\circ \mathrm{C}$ ) alters the dynamics of spark-induced cavitation bubbles across a range of discharge energies. As $T$ rises, the collapse of an isolated spherical bubble weakens monotonica…
View article: Effects of Multi-scale Coupling on Particle Acceleration and Energy Partition in Magnetic Reconnection
Effects of Multi-scale Coupling on Particle Acceleration and Energy Partition in Magnetic Reconnection Open
The interplay between kinetic and macroscopic scales during magnetic reconnection is investigated using particle-in-cell simulations of magnetic island coalescence in the strongly-magnetized, relativistic pair plasma regime. For large syst…
View article: Plasma Memory Erasure Wave (PMEW): A Novel Mechanism for Suppressing Hydrodynamic Instabilities in Inertial Confinement Fusion by Selective Phase Randomization of Ablation Plasma
Plasma Memory Erasure Wave (PMEW): A Novel Mechanism for Suppressing Hydrodynamic Instabilities in Inertial Confinement Fusion by Selective Phase Randomization of Ablation Plasma Open
Plasma Memory Erasure Wave (PMEW) is a newly proposed mechanism for inertial confinement fusion (ICF) that removes the fundamental source of hydrodynamic instabilities.Instead of suppressing Rayleigh–Taylor (RT) growth after it begins, PME…