Latest Articles for Cross-sections

An overview of neutron resonances and their significance in nuclear physics.

Study reveals self-interaction properties of dark matter in galaxy groups.

Research sheds light on muon neutrino behavior in argon for future experiments.

Exploring advancements in cosmic ray studies and their implications for the universe.

Researchers study electromagnetic properties of charmed baryons, revealing complex structures.

The HL-LHC aims to gather data to study the Higgs boson in detail.

Recent studies reveal key aspects of rapidity gaps in proton-lead collisions.

New experiments aim to deepen our understanding of neutrinos and their interactions.

This study investigates how heavy quarks lose energy in quark-gluon plasma.

Scientists investigate high-energy neutrinos and leptoquarks to explore new physics.

Recent findings enhance understanding of non-open charm hadrons and their interactions.

This study measures cross sections of particle interactions at various energies.

Examining bremsstrahlung effects on luminosity in polarized beams at the Electron-Ion Collider.

New methods shed light on breakup reactions in nuclear interactions.

A look into high-energy particle interactions and their implications.

LHC experiments aim to improve cosmic ray interaction models using proton-oxygen collisions.

Examining carbon's role in chemical reactions across various planetary atmospheres.

A study focused on quarkonium production from heavy atomic nuclei collisions.

Recent findings on top-quark and W-boson production at the LHC enhance particle physics research.

Research on hafnium production via photoproton reactions sheds light on nuclear processes.

Research sheds light on particle interactions involving leptons and jets at high energy collisions.

Recent findings in top-quark physics enhance our grasp of particle interactions.

New measurements improve understanding of neutrino-induced charged pion production.

Study reveals how CO behaves during collisions with He, impacting astronomy and atmospheric science.

Recent collider studies shed light on neutron properties and interactions.

New findings refine understanding of Pu-242 in nuclear science.

A new method for measuring photonuclear reactions using an electron accelerator.

This article explores the significance of studying three and four top quarks.

New methods enhance precision in particle physics calculations and address challenges.

CERN scientists measure interactions between top and bottom quarks, challenging existing theories.

New measurements reveal insights into particle interactions and states.

Examining the dynamics of heavy-ion fusion and its implications for energy and nuclear physics.

An overview of top quark pair production and its implications in particle physics.

A look into modeling parton showers through advanced simulations and methodologies.

Research reveals new details about resonances in particle physics.

This research measures top quark production alongside bosons, crucial for particle physics.

An overview of soft functions and their significance in particle physics.

Research advances in neutrino interactions are reshaping our understanding of fundamental physics.

Research reveals unexpected fusion behaviors in lithium and thallium interactions.

Recent experiments and calculations shed light on the muon's magnetic moment and its discrepancies.