Latest Articles for Theoretical Physics

Research at LHC investigates flavons and their link to top quarks.

Researchers aim to detect elusive dark matter particles through innovative experiments.

Research reveals new phases of cold atoms with potential applications.

A look into black holes through the lens of Loop Quantum Gravity.

A look into how charges behave in high-energy physics through one-point correlators.

Research reveals new insights into gravitational waves and their connection to black holes.

Scientists pursue methods to detect gravitons, expanding our knowledge of gravity.

Examining how strong magnetic fields influence the running coupling constant in quarks.

A look into the pseudogap phenomenon in high-temperature superconductors using the Hubbard model.

A look into how entanglement behaves in long-range interacting quantum systems.

An overview of the universal AdS black hole in theoretical physics.

Examining the behavior of physical systems without Lorentz symmetry across energy levels.

A look into Artinian meadows and their unique mathematical properties.

Examining black holes formed in quark-gluon plasma and their early universe implications.

Exploring the complexities and developments in Yang-Mills theory.

Examining how gravity and quantum mechanics shape our understanding of the universe.

Exploring the fascinating world of black holes and their unique properties.

A novel technique enhances top quark mass measurements using energy correlators.

This article examines the impact of quantum effects on transversity operators in particle physics.

Exploring Majorana particles and their implications for future quantum technologies.

This study examines inflation driven by a complex scalar field with diverse implications.

Research focuses on extremal fixed points and their implications in theoretical models.

Analyzing how top and bottom quark masses influence Higgs boson production.

This article examines lower tail probabilities in the stochastic six-vertex model.

An overview of chiral BMS-like field theories and their significance in physics.

Researchers investigate minimal dark matter and vector particles to uncover dark matter's nature.

A look into the dense nature and transitions of neutron stars.

Examining scalar fields and their interplay with electromagnetic fields at spacetime boundaries.

Exploring the stability and implications of light-rings near black holes.

Explore the world of electric and magnetic charges and their interactions.

Recent findings enhance predictions for W boson decays into heavy quarks.

Examining the role of clockwork models in explaining neutrino masses.

Presenting a systematic input scheme for many-boson Hamiltonians using quantum computing.

A proposed model connects the small mass of neutrinos to dark matter stability.

This article discusses quark interactions and condensation dynamics in particle physics.

Research bridges Carrollian theories and gravity, revealing new insights into quantum mechanics.

Research delves into particle decay, enhancing understanding of charmed mesons and their interactions.

An in-depth look at the behavior of currents in celestial CFT.

Exploring the essential role of Yang-Mills theory in modern physics.

Examining the Bumblebee model's impact on the universe’s structure and evolution.