Latest Articles for Energy Levels

Study highlights need for accurate atomic data in ion research.

A look at how potential wells influence particle behavior in quantum mechanics.

Study explores energy levels and properties of polonium isotopes using shell-model calculations.

Exploring the hydrogen atom's role in modern physics and its practical applications.

Deep learning enhances predictions in quantum Ising models, improving energy calculations.

Research reveals new excited states and interactions of the S isotope.

A guide on the transitions of energy levels in quantum systems.

Exploring the intersection of classical paths and quantum behavior in physical systems.

This study shows how to use 13-level qudits in quantum computing.

A new method improves spin-orbit coupling treatment in materials science calculations.

Study reveals complex interactions in strontium dimer's excited states.

Research on semiconductor-superconductor nanowires offers advances for quantum technology.

Introducing a model to visualize and interpret brain dynamics effectively.

Learn how quantum phase estimation and compressed sensing reshape computing.

A look into atomic behavior during excitation and decay.

A unified theory reveals new insights on the skin effect across different dimensions.

Exploring total cross section's role in high-energy proton collisions and future research.

Exploring the intersection of hyperbolic lattices and non-Hermitian physics for potential breakthroughs.

New methods improve lifetime measurements of highly charged ions for precision technologies.

Study reveals how soft waveguides influence wave behavior through shape and interactions.

A look into how cold atoms form molecules through innovative trapping techniques.

Exploring the role of dark solitons in advancing quantum computing and information storage.

This article examines the energy levels and behavior of quasi-periodic spin chains.

A new method enhances UAV participation in federated learning while protecting privacy.

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

This article examines how QED affects electron energy levels in Penning traps.

The new mon qubit design enhances quantum computing efficiency and reliability.

A new method improves material separation using multi-energy X-ray techniques.

A look into hadron collisions and inelastic events in particle physics.

CH molecule provides insights into star formation and potential for life.

New imaging technique improves precision in spectroscopy by reducing Doppler broadening effects.

Examining how global monopoles alter particle behavior and energy levels in spacetime.

Exploring the unique properties and potential applications of twisted bilayer graphene.

A novel model that simplifies the study of atom interactions.

Examining the electron EDM through HfF ion offers insights into fundamental physics.

Scientists investigate hydrogen's energy levels to advance theories in physics.

Investigating the properties and potential of radium fluoride through advanced techniques.

A fresh equation offers insights into the quantum measurement problem.

Recent studies reveal new insights into the origins and behavior of cosmic rays.

A look into how sound waves affect various structures.