Latest Articles for Quantum Mechanics

A look into the unique properties of spin-orbit coupled quantum droplets.

This article examines electron pairing interactions and their implications in materials.

Researchers achieve low temperatures for potassium atoms using natural sources.

An exploration of how detectors function in de Sitter and anti-de Sitter spaces.

A look into how particle distribution varies in heavy ion collisions.

Explore the role of nuclear magnetic moments in atomic nuclei behavior.

A study of RN-AdS black holes using the Wheeler-DeWitt formalism reveals unique properties.

Exploring pion mass shifts linked to electroweak gauge bosons.

A basic overview of how atoms interact with light using programming.

This article investigates mass calculations using various methods in gauge theory.

Cold collisions of alkali atoms reveal new states of matter and quantum interactions.

Exploring the role of fermions in relation to spacetime symmetry.

A look at the relationship between classical and quantum systems through the Weyl-Wigner representation.

Study reveals how materials impact conductivity and resistive behavior.

Researchers investigate CP violation in Higgs interactions using data from the International Linear Collider.

Exploring recent insights into quantum control strategies and their implications.

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

Research shows machine learning can classify spectral densities in quantum systems effectively.

A look into how weak measurements reveal quantum dynamics in dissipative systems.

Studying pion emission in high-energy collisions reveals important quantum behaviors.

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

Examining collective behaviors of charged oscillators in a three-dimensional lattice.

Investigating how superconductors change phases in magnetic fields reveals key principles.

Recent research shows how noise can improve quantum computing performance.

Examining the role of maximal operators in quantum mechanics and their implications.

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.

An accessible look at Dirac operators and their significance on graphs.

New insights on the Macroscopic Zeno Effect reveal innovative light control methods.

Exploring the intricacies of quantum phase transitions and local fidelity measures.

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

An exploration of quantum tunneling and its implications in physics.

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

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

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

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

Exploring Brownian motion through the lens of quantum mechanics and particle behavior.

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.