Latest Articles for Physics

A look into spin wave technology and its potential applications.

Research focuses on creating ultra-short laser pulses for various high-power applications.

Exploring the unique properties of antiferromagnets and their potential applications.

Researchers investigate intense laser interactions with neon, producing high-energy electrons.

An overview of Clifford circuits and their significance in quantum computing.

Discover the significance of quantum phase gates in quantum technology.

Recent findings on regular solutions in the Yang-Baxter equation advance integrable models.

Researchers investigate quantum gravity through asymptotic safety and foliated spacetimes.

Explore how surfactants affect surface waves in liquid films.

Improved techniques enhance stability and accuracy in solving conservation laws.

Research shows how two materials can improve spin manipulation for electronics.

Examining f(R) gravity through the lens of thermodynamics and its cosmic implications.

Study reveals how droplets behave on bouncing surfaces and its applications.

This article examines how forces influence particle motion under various constraints.

Research reveals dynamics of photon emission from quantum emitters in waveguides.

New findings confirm the existence of the Orbital Hall Effect in experimental settings.

A new optical tweezer system enables the trapping of multiple particles simultaneously.

A new beam combiner improves observations of stars in the J- and H-bands.

Unlocking advancements in electronics through the unique behavior of electron spins.

Investigating charge ordering and structural effects on superconductivity in nickelates.

This article examines how particles behave when confined in narrow spaces.

Exploring the simulation of light-matter interactions using quantum computing.

Exploring the interplay of gravity and quantum mechanics through gravitational quantum switches.

A study reveals complex electron behaviors in doped Hubbard models on a honeycomb lattice.

Research reveals new insights into particle behavior in ordered materials.

Exploring the importance of the fundamental gap in understanding shapes and curvature.

Exploring the connection between thermodynamics and quantum information for efficient technology.

Scientists seek answers to discrepancies in the universe's expansion rate.

Exploring how quantum computing enhances gravitational wave data analysis.

Analyzing how Hamiltonian systems change near separatrices through slow variables and jumps.

Exploring the potential of graphene multilayers for superconductivity and its unique properties.

An overview of wormholes and their implications in physics.

A nature-inspired approach simplifies the creation of advanced materials with controlled properties.

A look into how substances move and interact in various fields.

Scientists investigate dilatons and scalar fields to shed light on dark energy and dark matter.

Researchers investigate mobility edges in novel quasiperiodic mosaic lattices.

This article simplifies Active Ising Models, revealing insights into flocking dynamics.

Study explores how magnetic moments change in metasurfaces under external magnetic fields.

A look into quasiperiodic functions and their significance in science.

A look into the polynomial eigenfunctions of the Nazarov-Sklyanin Lax operator and their implications.