Latest Articles for Coupling

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.

Study of how magnons behave in graphene junctions reveals new electronic properties.

Research reveals new ways to connect distant quantum systems using cavity magnonics.

A look into the movement of quantum particles and their interactions with thermal environments.

Investigating Higgs boson interactions through its decay into photon pairs.

Research reveals unique interactions in magnetism that could change technology.

Using machine learning to improve laser light coupling into optical fibers.

Research reveals new insights into molecular junctions and their applications in electronics.

A new method enhances efficiency in low-entropy couplings for large distributions.

Learn how balancing drives improves performance in superconducting qubits and resonators.

A look at how networks maintain function despite aging and disruptions.

Exploring new designs in light-matter interactions for future technologies.

New methods improve simulation of fermion dynamics in various systems.

A look at Iterated TDD for reliable software production.

Researching how the Higgs boson interacts with electrons through spin asymmetries.

Examining how waves behave in complex systems through time-delay measurements.

This study examines how polymers react in unique liquid crystal environments.

Examining leptoquarks to address gaps in particle physics.

Scientists study unique atomic groups called trimers and their interactions at low temperatures.

Researchers connect semiconductor lasers to create unique light patterns.

New methods improve understanding of particle interactions at low energies.

A look into how magnets affect chiral spin-triplet superconductors.

Research focuses on improving Rydberg atom bandwidth for better communication technology.

A look into pair production of Higgs bosons and associated particle interactions.

Exploring how brain networks relate to intelligence and cognitive tasks.

Research on GaP crystals may lead to efficient quantum communication systems.

This article explores how different defects behave under various conditions in field theories.