Latest Articles for Theoretical Models

Exploring supersymmetry and scalar sequestering in particle physics.

Insights into how gravity affects object motion in unique spacetimes.

A deep look into the complexities of nucleon interactions and their implications.

An overview of boundary terms and their significance in gravity theories.

Researchers enhance understanding of fractionalized excitations in quantum magnets through advanced spectroscopic techniques.

Investigating heavy flavor hadrons in high-energy collisions reveals insights into quark-gluon plasma.

Neutrinos influence fundamental processes in the universe through oscillations and decay.

A look into the stability of the vacuum in particle physics.

This article examines the role of diffuse axion background in understanding cosmic events.

ATLAS Collaboration provides new limits on SUSY particles and dark matter implications.

Exploring tensor forces and their effects on Gamow-Teller transitions in magic nuclei.

A look at how new symmetries could address Standard Model anomalies.

A look into the Alternative Left-Right Model and its impact on particle physics.

A closer look at heavy quarkonia and tetraquarks, their properties, and research advancements.

Study energy loss of jets in quark-gluon plasma during heavy-ion collisions.

Researchers study fermions to understand gravity's role in extreme conditions.

A look into the challenges of measuring the strong coupling constant.

This study examines how nucleons interact and cluster in Neon.

A look at how particle collisions reveal fundamental properties of matter.

Examining instantons and their role in understanding quantum systems beyond typical methods.

Exploring the behavior of weakly collisional plasmas during relaxation processes.

This article explores how hot spot arrangements affect nuclear collision outcomes.

Researchers study nuclear pasta to understand matter in extreme environments.

Exploring how CP violation affects dark matter properties and interactions in physics.

New model connects dark matter to top quark decays through newly introduced particles.

This article discusses the behavior of dilaton particles in modified quantum field theories.

An overview of quantum chains and their intriguing properties.

Researchers investigate unusual properties of copper-oxide materials using advanced methods.

Exploring methods to enhance agreement testing with low acceptance rates.

Researchers analyze heavy resonances, setting strong limits for new physics.

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

This article explores the latest findings on exotic and non-invertible symmetries in physics.

Research sheds light on neutral gauge bosons and their implications in particle physics.

An overview of particle physics, its forces, and the search for new theories.

New methods enhance the accuracy of top quark pair production simulations.

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

Scientists investigate potential new particles through high-energy collisions at the LHC.

Examining the complexities of Lorentz invariance in quantum physics theories.

Exploring particle behaviors and phase transitions in quantum field theories.

A deep dive into stability and quantum corrections in the Litim-Sannino model.