Latest Articles for Particle Physics

New model connects dark matter to top quark decays through newly introduced particles.

An overview of supersymmetric SYK models and their significance in quantum mechanics.

A study on gravity and forces linked to M-theory and Calabi-Yau manifolds.

A rare solar flare emitted gamma rays, providing new insights into solar activity.

A neutral detector built underwater to study cosmic neutrinos.

Scientists pursue elusive SUSY particles at the Large Hadron Collider.

Research reveals how electron scattering helps understand nuclear shape and deformation.

This article discusses brane theory and new solutions in gauged supergravity.

This article discusses the behavior of dilaton particles in modified quantum field theories.

Research examines how dark matter influences key physical constants through atomic clock measurements.

Investigating axions and instantons to address CP violation in particle physics.

This article discusses the significance of two-nucleon emission in neutrino interactions.

Exploring the behavior of quark matter through innovative statistical approaches.

Alumni share insights and research findings in particle physics at a two-day conference.

A look into unique particle combinations in physics.

Researchers use quantum computers to simulate fundamental particle interactions in SU(3) theory.

Examining the relationship between neutrinos and the universe's dark sector.

A new method enhances the analysis of short-lived particles in high-energy physics.

An overview of quantum chains and their intriguing properties.

Researchers study Weyl fermions and their behaviors on curved surfaces under gravity's influence.

Exploring vacuum energy dynamics in 10D super Yang-Mills theory on magnetized tori.

An overview of spinning particles and their partition functions in theoretical physics.

Exploring how holography impacts our view of quantum mechanics and the universe.

Research reveals insights into strange quarks and their effects on nucleon properties.

Exploring the effects of vacuum decay in gravitational contexts.

Researchers analyze heavy resonances, setting strong limits for new physics.

Examining how the shape of space influences scattering of spinless particles.

Unraveling the connection between dark matter and matter-antimatter imbalance through right-handed neutrinos.

Exploring the role of Majorana zero modes in the future of quantum computing.

Research explores elastic scattering and the significance of Pomeron and Odderon at LHC.

New study investigates deuteron and antideuteron production during high-energy particle collisions.

A look at Cartan geometry's impact on gravity and supergravity theories.

New methods improve accuracy in QCD simulations, focusing on fermions and their interactions.

A deep dive into how heavy quarks interact within quark matter.

Study of particle perception by rotating observers and its effects on OAM.

PANDA project applies software innovations for better tracking in high-energy physics.

Explore the fundamental interactions between fermions and higher-spin bosons.

Scientists investigate Axion-Like Particles to address dark matter and particle interaction questions.

Research investigates top squark production, pushing the limits of particle physics.

Scientists explore muon interactions to detect dark matter in the universe.