Latest Articles for Particle Physics

New insights into dark matter through gravitational wave detection.

This study examines the effects of periodic driving on fermionic chains.

Researchers examine heavy particles, challenging current physics theories and revealing new possibilities.

Research explores gluons' contributions to proton spin in particle physics.

A study on jet angularities in proton-proton and heavy-ion collisions at RHIC.

Majorana bound states offer new possibilities in quantum computing through unique features.

Neutrinos could reveal secrets about gravity at the quantum level.

Research on pentaquarks and hexaquarks reveals new insights into quark interactions.

A look into the dense and complex world of neutron stars and their cores.

Research on composite dark matter offers new perspectives on the universe's unseen mass.

A workshop discusses key findings in B meson mixing and its implications.

This article examines Gamow-Teller transitions in magnesium and oxygen nuclei.

New search for axion-like particles yields limits on existence through photon decay.

This method improves secure data transfer using superdense coding and hyperentangled atoms.

Recent experiments suggest possible violations in lepton flavor universality, hinting at new physics.

Rare particle decays offer insight into fundamental physics and the behavior of matter.

Analyzing how 3-3-1 models address lepton flavor violating decays.

Learn about the Higgs boson's role in giving mass to particles.

A deep dive into the formation and significance of primordial black holes.

Explore the NMCHM's implications for dark matter and gravitational waves.

Researching quark and gluon behavior in Glasma reveals key insights into the universe's early state.

Research reveals insights into particle behavior during collisions.

Examining the effects of non-extensive Tsallis statistics on quark-hadron phase transitions.

Exploring the latest developments in quantum computing and its potential applications.

Exploring new concepts in particle physics to address unanswered questions of the universe.

Research reveals potential new physics through flavor violation studies.

Exploring baryogenesis through gravitational particle production in the early universe.

Neutrinos offer insights into the Sun's structure and behavior through Earth-based measurements.

This article examines bottom quark decay in a theoretical particle physics model.

ATLAS improves data collection and analysis methods for high-energy physics research.

IsoDAR project aims to study electron-antineutrinos for new physics insights.

Studying charmonium reveals insights into the strong force and particle interactions.

A deep dive into WZW terms and their role in quantum chromodynamics.

Exploring axion production and its significance in dark radiation.

A closer look at the thermodynamic properties of one-dimensional bosonic systems.

Investigating dark matter's role and its connection to visible matter.

Recent findings enhance understanding of particle interactions and resonant structures.

Examining background noise from atmospheric neutrinos in experimental detections.

Examining the impact of temperature on particle interactions and gravity.

This study examines how charged particles influence four-photon scattering in gravitational fields.