Latest Articles for Protons

Research reveals high-energy gamma-ray emissions around supernova remnant DA 530.

A more efficient way to simulate neutrino experiments is introduced.

Understanding superionic ice sheds light on icy planets' conditions.

Research reveals complex behaviors in particle collisions, enhancing our understanding of matter.

A look into how ATP synthase helps plants produce energy.

Researchers study how surface charges affect chemical reactions in nanoparticles using advanced techniques.

Study of GAGG:Ce crystals for satellite gamma-ray burst monitoring.

Scientists investigate phase changes in matter using particle collisions at CERN.

Research reveals key differences in particle behavior from the Sun.

Investigating the link between cosmic rays and gamma-ray bursts.

Examining the conversion process for insights into fundamental physics.

Examining how bacteriorhodopsin generates electric charge through proton movement.

Study reveals how energy affects meson production during proton-proton collisions.

New data on isotope production could improve cancer treatment options.

A detailed catalog sheds light on recent solar energetic particle events.

This research evaluates single top quark and antiquark production rates from LHC data.

Delve into the essential theory of how quarks and gluons interact.

Vortex states offer fresh insights into particle interactions and proton behavior.

New measurements enhance our understanding of the Higgs boson mass and width.

A study on improving predictions for solar energetic particle events using machine learning.

Study measures how muon neutrinos interact with argon, advancing our understanding of particle physics.

Investigating quarkonium from proton collisions reveals details about gluon behavior.

New experiments aim to improve muon neutrino mass measurements, shedding light on fundamental particles.

Research sheds light on magnesium decay and particle emissions.

Learn how shock waves influence particle energy in space, especially near the Sun.

Research reveals how black holes can generate high-energy particles and gamma rays.

This article discusses a method to detect neutrons in neutrino interactions using secondary protons.

This article examines how GRB jet composition affects neutrino production.

Research reveals new data on deuteron-proton scattering and its fundamental interactions.

Research sheds light on Io's unique atmosphere and energetic particle interactions.

This study examines how proton energy affects carbon nucleus interactions.

Investigating high-energy neutrinos from binary neutron star collisions and their cosmic implications.

Scientists observe neutrinos, improving understanding of particle physics and proton structure.

Research focuses on measuring Cherenkov light for better energy detection in particle experiments.

Simulations reveal how particles gain energy during magnetic reconnection, affecting solar flare dynamics.

Skipper CCDs are tested for radiation effects to enhance performance in space telescopes.

An exploration of twist-3 GPDs and their role in proton structure.

Research explores how entanglement entropy reveals proton behavior in high-energy collisions.

Conflicting measurements reveal challenges in our understanding of proton size.

Researchers investigate axion-like particles to better understand dark matter.