Latest Articles for Theoretical Physics

Examining how vacuum phase transitions create gravitational waves in our universe.

Research reveals how polyacetylene arrangements influence energy and conductivity.

Explore the connection between scalar fields and geometry in theoretical physics.

String Field Theory offers a fresh approach to string interactions in the universe.

Researchers are redefining gravity's role in our universe's evolution.

Exploring how compact stars challenge our understanding of gravity and its theories.

Delving into the mysterious hypothetical particles that challenge our understanding of speed.

Examining black holes through modified gravity theories reveals new behaviors and solutions.

A look into MiniBooNE's puzzling low-energy excess and its implications.

Exploring the significance of cosmic inflation and its connection to gravitational waves.

Scientists investigate how the universe might bounce back after contraction.

This study investigates the relationship between accelerating black holes and holographic theories.

Investigating unique pentaquark states and their implications for particle physics.

A fresh approach simplifies the calculation of Lee-Yang zeros in quantum physics.

OF-DFT offers new insights into complex nuclear systems beyond traditional methods.

Research focuses on Kähler moduli for cosmic inflation and particle physics.

Research reveals the dynamics between many-body localization and ergodic bubbles.

Discover the enigmatic nature of boson stars and their connection to dark matter.

Exploring the relationship between gravity and gauge theories in modern physics.

CP violation sheds light on the matter-antimatter imbalance in the universe.

A deep dive into black hole solutions within the EBR gravity model.

Researchers investigate exotic pentaquarks, revealing potential new states in particle physics.

This study examines the dynamics of three identical bosons with negative effective ranges.

This article discusses noncommutativity's role in loop quantum cosmology's understanding of the early universe.

This article discusses sterile neutrinos and their potential role in dark matter.

A look into how particle masses differ and what drives these variations.

Exploring how excited bound states impact dark matter production in the early universe.

Research tackles challenges in defining logarithms for hypercomplex numbers.

Investigating the link between dark matter, dark energy, and cosmic expansion.

Lattice DFT enhances understanding of complex electronic systems and interactions.

Investigating how boundaries affect quantum field behavior in curved spaces.

Research investigates vector-like quarks and their role in particle physics.

Research highlights how kinks form from wave interactions and their implications in particle physics.

A look at central extensions and their role in group theory and topology.

Exploring methods to improve gravitational collapse simulations and their implications for black hole research.

Examining the relationship between gravity, black holes, and quantum mechanics.

This study examines bumblebee black holes and their stability influenced by global monopoles.

This study examines the role of odderon spin in elastic scattering processes.

Research focuses on new particles to deepen our understanding of the universe.

A look into the search for SUSY particles using R-parity violation.