Latest Articles for Quantum Mechanics

Research reveals complex electron behaviors in heavy fermion materials with multiple bands.

This study uncovers the complexities of meson behavior and symmetry in particle physics.

A look at three-dimensional C-metrics, black hole thermodynamics, and cosmic strings.

Techniques to reduce errors and maintain quantum information integrity.

An overview of wave-particle duality and its implications in quantum physics.

An overview of Dirac fermions and their interactions in different conditions.

FeynGrav aids scientists in studying gravity at small scales.

An overview of essential ideas in quantum physics and their real-world implications.

A new method to predict complex interactions in quantum systems.

A look into charmonium states and their significance in particle physics.

This article explores how three particles interact in the FPUT model.

Exploring the unique behaviors of hyperscaling violating black holes and their phase transitions.

Ultracold molecules are key tools for studying quantum mechanics and information processing.

Exploring the significance of non-Hermitian random matrices in complex physical systems.

New methods improve phase measurements of microwaves at room temperature.

Baryons, made of quarks, are key to understanding matter's structure.

Harnessing squeezed states can improve detection in gravitational waves and quantum communication.

A look at tunneling dynamics and their implications in quantum mechanics.

Scientists observe a new charmed baryon decay, revealing insights into particle interactions.

Introducing DMMFT for better insights into complex quantum states and frustrated systems.

Examining magnetic states in quantum spin chains through environmental coupling methods.

New insights into particle interactions emerge from non-Hermitian models.

Research explores superfluid helium's unique phase transitions under controlled conditions.

Exploring how rotational states affect interactions among polar molecules.

Investigating the unique behaviors of ultracold bosons and their interaction with light.

Explore the concepts of Galilean and Carrollian space-time alongside non-commutative frameworks.

Gravitational waves provide insights into the universe's early history and formation.

Exploring the links between quantum mechanics and gravity.

Exploring the unique behavior of nuclei through wobbling motion.

Delving into the properties and significance of doubly heavy baryons in particle physics.

A look into the complex dynamics of protons and neutrons.

A look at how optimistic purification improves quantum network efficiency.

Investigating how operators spread in disordered and interacting many-body systems.

A look at how Majorana constellations help visualize and understand quantum states.

This article examines superfluid helium's unique properties and its phase transition implications.

This article discusses new methods for calculating weak decays and addressing related challenges.

Exploring final states enhances our understanding of cosmic expansion and dynamics.

A new method improves predictions in materials science by considering spin currents.

A look at how the WDW equation impacts our view of black holes.

Discover the significance of unitary property testing in quantum algorithms.