Latest Articles for Fermions

A look into two important models and their thermodynamic properties.

New methods improve simulation of fermion dynamics in various systems.

Exploring how modular family symmetry impacts our understanding of particle properties.

Examining how quantum coherence behaves near black holes.

This study examines how dark matter can remain stable over time.

New methods simplify the simulation of open quantum systems in quantum physics.

Exploring the potential mass of gravitons and their role in the universe.

This article explores the behavior of particle densities in fermionic and bosonic systems.

Examining how gravity and geometry influence the localization of fermions in higher dimensions.

Explore how boundary criticality affects materials with unique properties.

Exploring the dynamics of fermion-antifermion pairs influenced by decaying potentials.

A method to study quantum systems with reduced computational demands.

Examining how Fermions interact and affect metal properties.

Examining how rotation changes fermion behavior in wormholes with negative curvature.

A look into the intriguing relationship between kinks and fermions in physics.

Examining how gravity influences particle behavior in non-Abelian gauge theory.

This article examines how fermions are produced during cosmic evolution.

A new theory links dark matter and dark energy through fermion interactions.

Exploring how defects influence entanglement in quantum systems.

Study reveals insights on Majorana zero modes through light-induced interactions in fermionic systems.

Research reveals how particle behavior varies with quantum torus shapes.

Investigating a theoretical model for dark matter involving singlet-doublet fermions.

A simplified approach to two-particle interference using a delta potential well.

Research on phase transitions in quantum materials using the Lee-Yang formalism.

This study reveals how pion scattering varies with the number of colors in QCD.

Investigating mass patterns in fermions using the rank mechanism.

An overview of Feynman diagrams and their role in quantum field theory.

A look into the role of fermions in gauge theories and mass hierarchies.

Exploring behavior of particles in many-body systems through density of states.

This article examines how fermions behave and interact in various systems.

A detailed look into the 331 model and its implications for quark interactions.

Study reveals how bosons and fermions behave under classical forces.

An exploration of how fermions and bosons behave in beamsplitters and interferometers.

Scientists probe mysterious aspects of dark matter and flavor anomalies in particle physics.

New method utilizes fermion properties for easier entanglement measurement.

Discover the unique world of Lee-Wick electrodynamics and its implications.

Fermions can gain energy from charged black holes in quantum superradiance.

A look into how particles gain mass through Higgs and electroweak symmetry breaking.

Studying electron behavior on a triangular grid reveals transitions in states of matter.

Researchers reveal surprising fermion dynamics in quantum systems using point contacts.