Latest Articles for Effective Field Theories

New theories explore black holes under modified gravity, revealing intriguing characteristics.

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

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

A look at how scientists analyze galaxy data to understand the universe.

An overview of neutron-proton scattering and its significance in nuclear studies.

This paper addresses the challenges of fermion masses in high-energy particle interactions.

Investigating the elusive nature of dark matter and its interactions with particles.

An overview of open bosonic strings and their interactions in string theory.

Recent findings challenge current particle physics predictions and hint at new phenomena.

Exploring how machine learning can analyze effective field theories in physics.

A look at how color structures affect particle interactions and their implications.

Study how altered symmetries influence particle interactions in effective field theories.

This study investigates cLFV in top quark interactions using data from the LHC.

Research on baryonic vortices sheds light on matter under extreme conditions.

Examining neutron decay reveals insights into particle interactions and potential new physics.

Research reveals potential pathways for understanding new physics through cLFV.

Physicists investigate interacting fermions in holographic systems and their implications for quantum behaviors.

Investigating the role of axion-like particles in particle physics and the strong CP issue.

Examining effective field theory perspectives on gravity and quantum mechanics.

This article explores how light particles interact with larger matter through background-induced forces.

A look into soft quark functions and their role in particle interactions.

Scientists investigate lepton flavor violation for insights into new physics.

This article explores CP violation and the role of invariants in particle physics.

Exploring the invisible mass shaping our universe.

Exploring the significance of electric dipole moments in particle physics and symmetry violations.

An in-depth look at black holes with electric charge and their tidal responses.

Research reveals potential new physics through flavor violation studies.

Scientists analyze different models to interpret galaxy redshift survey data effectively.

This paper reviews analysis methods for data from the Dark Energy Spectroscopic Instrument.

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

Examining the existence and implications of hidden dimensions in our universe.

ATLAS reveals crucial measurements about top quarks at the LHC.

This study examines black hole behavior using an effective field theory approach.

A look into galaxy formation and the role of randomness.

LUX-ZEPLIN aims to uncover the secrets of elusive WIMPs and dark matter.

Exploring how sterile neutrinos may explain dark matter in the universe.

A look into dark energy and its implications on cosmic expansion.

Researching the implications of multiple Higgs boson production in particle physics.

Research on sterile neutrinos could reveal new physics beyond current models.

Investigating tidal Love numbers reveals important aspects of black holes and gravity.