Latest Articles for Coupling

New techniques aim to improve measurements of bottom quark interactions at future experiments.

A new method for identifying balanced butterflies in complex relationships.

Researchers use light to influence phonon behavior in graphene, enhancing its properties.

Exploring the significance of Higgs boson pairs in particle physics.

Investigating how disorder and coupling affect particle behavior in quantum mechanics.

Examining how matter fields localize on thin and thick branes.

Research reveals how interactions in STO arrays affect oscillation behaviors.

This article examines how oscillators synchronize and the effects of noise on them.

New techniques using Helmholtz resonators aim to reduce noise pollution effectively.

Learn how exceptional points influence light behavior in optical dimers.

Researchers develop cavities to enhance light-matter interaction studies at the nanoscale.

Coupled nanomagnets could reshape future computing with innovative designs and structures.

Innovative materials designed for specific functions using precise arrangements.

Research explores NV centers and magnons to improve quantum information processing.

A look into axion-like particles and their potential significance in physics.

An overview of tensor mesons and their significance in particle physics.

Exploring the mysteries of dark energy and its role in the universe's expansion.

This article discusses methods to estimate glueball masses and couplings in three-dimensional Yang-Mills theory.

New developments improve analysis of Gibbs processes and their applications across fields.

A study of how delayed oscillators affect their coupled counterparts.

A concise overview of MCMC sampling methods and their applications.

Examining entropy behavior in black holes with complex interactions.

Analyzing interactions of an exotic neutral vector boson in particle physics.

This research explores how oscillators synchronize in biological contexts.

Research reveals unique light interactions with giant atoms in waveguides.

Exploring the link between sound waves and magnetic waves for advanced technology.

Examining the behavior of metallic nanowires on semiconducting materials.

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

Research on light and magnetic materials is opening new technological possibilities.

Investigating how information spreads in quantum systems through qubits using correlation functions.

Research sheds light on neutral gauge bosons and their implications in particle physics.

A look into measuring quantum state transportation costs with quantum Wasserstein distances.

A new method for confirming program termination in complex probabilistic environments.

A new method blends local and nonlocal modeling to improve accuracy and reduce costs.

This article examines particle behavior in one-dimensional channels connecting reservoirs.

A look into quantum graphs, their structure, coupling, and spectral characteristics.

Exploring the interplay between free electrons and light for future technologies.

Recent findings in particle decays hint at the existence of unseen particles.

Exploring wave dynamics in special systems reveals insights into biological behavior.

Examining how lift forces influence particle movement in turbulent environments.