Latest Articles for Energy Levels

A study reveals how tensor forces shape nuclear structure in silicon and nickel isotopes.

Researchers are studying toroidal dipoles for advancements in technology and materials.

Research unveils crucial findings on particle behavior in high-energy collisions.

An overview of fermion-soliton scattering and its implications in theoretical physics.

Researchers study electron behavior in quantum dots for advances in technology.

A fresh method for finding optimal atomic structures using complementary energy landscapes.

This study examines how phosphorus atoms affect electron behavior in silicon for electronic devices.

Exploring the link between thermal states and quantum entanglement generation.

This study examines how distance affects interactions among quantum particles.

A study on the structure and behavior of bismuth isotopes from Bismuth-204 to Bismuth-213.

New methods using random fluxes enhance understanding of bosonic particles and black holes.

Investigating the dense dust cloud near the Galactic Center and its historical significance.

A novel way to analyze energy levels and states in quantum systems.

This study examines the dynamics of nitrogen reactions and their energy implications.

Examining the ties between density of states and black holes in modern physics.

Research investigates the link between high-energy neutrinos and galaxies.

Scientists use metasurfaces to efficiently control exciton behavior with light.

Research on PbF reveals a complex interaction of energy levels and molecular dynamics.

An exploration of the significant attempts to prove the Riemann Hypothesis.

Research reveals how MeV rays behave in the atmosphere affecting detection.

A look into hybrid mesons and their properties in particle physics.

Exploring the significance of formyl cation in interstellar environments.

This research analyzes how mesons interact with atomic nuclei and their bound states.

Exploring the interaction of harmonic oscillators with gravity and magnetic monopoles.

CF+ contributes to our understanding of chemistry in space environments.

A look into marginal optima and their impact on algorithms in complex systems.

Research reveals how complex magnon interactions influence device performance in computing.

This article discusses a technique to simplify studying quantum systems using the JD algorithm.

Research reveals new insights into neutron distribution in sulfur's atomic structure.

Investigating how neutrinos interact with matter through various experiments.

A look into how small asteroids interact with larger celestial objects.

Exploring photon creation through superconducting cavities and their implications for technology.

Study reveals effects of nonlinear Landau-Zener tunneling in spin-orbit-coupled condensates.

Study of energy levels in quantum rotors explains chaotic and ordered behaviors.

Exploring the link between quantum systems and classical concepts in physics.

Study reveals how temperature changes exciton brightness in WSe2 monolayers.

Study reveals molecular assembly effects on diamond's electrical properties.

Examining the SSH model reveals insights into non-Hermitian systems and their applications.

Examining how rotation changes fermion behavior in wormholes with negative curvature.

New models improve understanding of anharmonic oscillators' energy levels.