Latest Articles for Particle Physics

Researchers explore acoustic techniques to detect elusive neutrinos in water.

A look at how quantum tunneling affects energy state transitions in the universe.

Investigating gluon distributions reveals insights into hadron structure and particle interactions.

ARA aims to detect ultrahigh energy neutrinos and shed light on cosmic events.

A look into the fundamental forces and particles of our universe.

Exploring flavor sum rules and their significance in understanding particle behavior.

Exploring how mutual information reveals insights in fermionic conformal field theories.

A new experiment uses magnetic levitation to search for ultralight dark matter particles.

Research sheds light on charmonium behavior in high-energy collisions.

This study examines axion clouds and their gravitational wave signals.

Research into heavy ion collisions reveals insights about quarks and kaons.

A look at particle interactions in theoretical physics and their implications.

Examining how gravitational waves form during early universe phase transitions.

A look into how quarks behave within hadrons and their significance in particle physics.

Investigating the impact of cosmogenic isotopes on germanium detector sensitivity.

Examining how gauge theories relate to the relativistic Toda lattice.

Scientists seek to understand new physics beyond current theories.

This article examines the intriguing world of heavy baryonium and dibaryon systems.

A look into the properties and behaviors of charm mesons.

A significant study finds no signs of sterile neutrinos in recent experiments.

Researchers use holography and Wilson loops to study particle behavior and confinement.

A new method helps uphold gauge invariance in quantum simulations, reducing errors.

Investigating heavy neutral leptons could reveal key insights into neutrino behavior.

A look into the ongoing debates surrounding arrival times in quantum mechanics.

Discover the critical phase of preheating and its impact on the universe's development.

Investigating mass patterns in fermions using the rank mechanism.

Examining light nuclei helps reveal essential insights into extreme matter behavior.

Research connects high-energy neutrinos to the active galaxy PKS 0735+178.

A look into pentaquarks and their significance in understanding fundamental forces.

Neutrinos influence the universe's structure and the matter-antimatter imbalance.

A look into how heterotic string theory combines different concepts to explain our universe.

A look into the unique properties of spin-imbalanced Fermi gases.

Investigating unique pentaquarks and their significance in particle physics.

A look into how two-scalar models could reveal dark matter interactions.

Digital SiPMs enhance photon detection and particle tracking in high-energy experiments.

This method simplifies complex calculations in particle physics.

Examining the complexities and implications of heterotic string theories in physics.

Exploring the significance of neutrinos and their mass in the universe.

Investigating extra scalar fields for insights on dark matter and vacuum stability.

This study investigates how resonances decay into pseudoscalar mesons.