Latest Articles for Theoretical Models

A new tool aids scientists in analyzing supersymmetry models using existing data.

An overview of wormholes and their implications in physics.

Exploring the role and properties of neutrinos in our universe.

Researching quark-gluon plasma behavior under extreme conditions in heavy-ion collisions.

A look into charmoniumlike hybrids and their decay processes in particle physics.

A look at how particles behave under extreme momentum in Quantum Field Theory.

A look into the nature and behavior of near-continuum dark matter.

This study investigates lepton doublet dark matter and its production mechanisms.

Research reveals unique properties of hyper-honeycomb Cu oxalate framework.

A new model connects dark matter and neutrino masses through a scalar field.

Investigating modified gravity and its effects on cosmic expansion and dark matter.

This article explores pion decay's role in identifying potential new particles.

Exploring multi-Higgs-doublet models' role in CP violation and particle interactions.

Examining the significance of scalar particles in particle physics and the GeV excess phenomenon.

Exploring rare muon decays may reveal unknown particle interactions.

A look at how baryons are classified and modeled in particle physics.

Research aims to find massive particles interacting with light at LHC.

A look at the phases and dynamics in the Gross-Neveu model.

New insights into scalar mesons enhance our understanding of particle interactions.

Recent findings suggest new sources of gravitational waves linked to supercooled phase transitions.

Exploring nucleosynthesis and hypernuclei formation through high-energy collisions.

Research enhances predictions of particle interactions involving top quarks and photons.

Exploring vacuum energy and symmetries in heterotic string theory models.

This article examines the dilaton model as a potential explanation for dark energy.

Recent findings reveal gravitational waves from the early universe, linked to theoretical models.

An overview of light mesons and their significance in studying the strong force.

A study on how photon connections create unique topological properties.

Analyzing how atom losses impact hard-core boson dynamics in cold atom experiments.

This article examines how random measurements affect the behavior of the Toric code.

Exploring the role of saturating automata in understanding concurrent programming.

Extending Calogero models to infinite symmetry groups enhances our understanding of physical systems.

Cells use time averaging to filter noise and make accurate predictions.

Research reveals how light affects molecular behavior in confined spaces.

Exploring the nonlinear Schrödinger equation and its implications for matter waves.

Investigating triangle singularity provides insights into unique particle interactions and behaviors.

A deep dive into the essential qualities of reversible computation systems.

This research explores how complex models may explain baryon asymmetry in the Universe.

Research on pions reveals insights into atomic nucleus interactions and particle properties.

Exploring pion behavior reveals insights into strong interactions and early universe conditions.

Examining how short-range correlations impact nuclear behavior and interactions.