Latest Articles for Physics

Explore the fascinating world of general relativity and its effects on the universe.

Discover how scientists simulate light traveling through unusual materials.

Exploring the intriguing links between vertex algebras and Gorenstein algebras.

EFA improves predictions by efficiently capturing long-range effects in machine learning.

Explore how chiral waveguides reshape our understanding of light and matter.

A light-hearted look at particle interactions and the S-matrix in quantum field theories.

A fresh approach to understanding specific heat in light actinide metals.

Discover the intricate world of Calabi-Yau foliations and their significance in mathematics.

Explore how diffeomorphism invariance shapes our understanding of the universe's evolution.

A fresh perspective on quantum gravity and the nature of space and time.

Discover how waves travel through beams and impact structural safety.

Discover the intriguing connections between contact geometry and real-world applications.

Discover how longitudinal readout transforms qubit measurement accuracy in quantum computing.

Discover the unpredictable world of Brownian motion and its fascinating implications.

Explore the fascinating world of heat exchange through baths.

Discover how domain walls shape gravitational waves in our universe.

Discover the fascinating world of active particles and entropy production.

A look into the behavior and applications of coupled harmonic oscillators.

Dive into the challenges and insights of three-body interactions in physics.

Discover the impact and applications of polynomial random matrices in modern science.

Discover the fascinating world of coupled oscillators and their surprising behaviors.

AI transforms how students engage with physics through interactive simulations.

Discover how classical objects relate to the strange behavior of quantum particles.

Discover how scientists measure light's properties with minimal disturbance.

Discover how light behaves beyond simple illumination in science.

Discover how guided waves transform energy in piezoelectric materials.

Investigating how solvents alter molecular vibrations and their implications in various fields.

Discover the fascinating world of superfluids and critical velocity.

Exploring Hamiltonian systems reveals the complexities of motion in curved environments.

Discover how XMCD and RIXS reveal the hidden properties of materials.

Bumblebee model aids in particle discovery and classification tasks.

Explore the unique behaviors of domain walls and their impact on physics.

Scientists use advanced detectors to find signs of dark matter.

Exploring the connections between complexity and geometry in quantum systems.

Discover why the Sun's outer layers are hotter than its surface.

Exploring the behavior of matter through the chiral phase transition in quantum chromodynamics.

Scientists work to unite gravity and quantum mechanics through asymptotic safety and wave function renormalization.

Scientists use MQC spectroscopy to study spin interactions in materials and proteins.

Learn how running couplings affect particle interactions at different energy levels.

Discover the fascinating movements of particles in fluid through Brownian motion.