Latest Articles for Physics

This article reviews methods for simplifying calculations of intersection numbers in particle interactions.

Examining new insights into atomic interactions using nonlinear sub-Doppler techniques.

A new technique allows for moving objects in chaotic environments using sound waves.

This article explores how initial conditions impact open quantum systems and their dynamics.

Research connects gauge freedoms to sequence-function relationships in biology.

Understanding particle arrangements and interactions enhances material properties in science and engineering.

An overview of contact geometry, highlighting its structures and practical implications.

A look into how laser pulses affect magnetization in ferromagnetic materials.

Examining how gravity alters quantum fields reveals new insights into physics.

Introducing a method that improves 3D dynamics modeling over time.

Study reveals how particles behave at interfaces between different materials.

Study of particle dynamics influenced by interconnected neighbors and sparse interactions.

This article discusses the role of nanoNewton actuators in measuring gravitational waves.

Examining superconductors' reactions to sudden shifts in temperature and energy structure.

Exploring new findings in quantum states, particularly involving charge order and topological order.

Research on highly charged ions reveals insights into physics and technology.

Study of how electrons move in gases under various fields.

Examining ultracold neutrons to reveal new aspects of gravity and quantum mechanics.

This article discusses shapes and their behavior using the Loewner equation.

Explore how the nonlocal Allen-Cahn equation affects phase separation and material design.

Exploring how vibrational resonance enhances weak signals in circuits amid noise.

Explore how small parameter changes lead to significant system behavior shifts.

Explore the links between graph theory, walking distances, and physics concepts.

This study investigates how black hole merger behavior affects gravitational waves.

Explore how geometric inequalities reveal relationships within shapes.

New approaches show promise in quantum communication using simple measurements.

Examining how anisotropy influences computational complexity in black holes and quantum systems.

A novel approach enhances accuracy in predicting Hamiltonians for materials.

Examining the role of torsion in Riemann-Cartan geometries and its physical implications.

Exploring the properties and applications of Randers metrics in two-sphere geometry.

Exploring how magnetic fields influence heat movement in unique materials.

Recent studies reveal the behavior of spin-1 BECs with spin-orbit and Rabi couplings.

An overview of quantum information and its relation to gravity theories.

Doped TMDs show potential for magnetic semiconductor applications in spintronics.

A look into harmonic functions and their significance on unique toroidal surfaces.

An overview of semiflows, invariant foliations, and the Koopman operator in dynamic systems.

A new way to create simpler models from complex systems for better simulations.

This research explores how oscillators synchronize in biological contexts.

Research shows optical cavities can change chemical reaction behavior for improved efficiency.

A look into the universe's origins, structure, and future.