Scientists have found a new way to control quantum information using a special material, chromium sulfide bromide. It can ...

In a groundbreaking study, scientists developed new ways to control atom collisions using optical tweezers, offering insights ...

When atoms collide, their exact structure—for example, the number of electrons ... such as quantum computing, metrology, and many-body physics, where controlling atomic collisions is essential ...

Electron orbitals within ... excitons to a single atomic layer, the excitons are further restricted to a single line—a single dimension—because they can easily move along only one of the two axes of ...

In a new study published in Physical Review Letters, JILA Fellow and University of Colorado Boulder physics professor Cindy Regal, along with former JILA Associate Fellow Jose D’Incao (currently an ...

The scalable architecture is based on modules which each contain only a small number of trapped-ion qubits (atomic-scale carriers of quantum information). These are linked together using optical ...

2 Flerovium (Fl) is a superheavy element (SHE) with atomic number 114. Experimental studies have shown ... As a result, the nonspherical atomic orbitals (AOs) in Fl are more effectively shielded from ...

The domain of applicability of the ensemble model is analyzed with respect to the crystal systems, the inclusion of a Hubbard parameter in the density-functional-theory calculations, and the atomic ...

This course gives an introduction to the quantum mechanics of many-body systems and the computational methods relevant for many-body problems in such diverse areas as atomic ... natural orbitals), ...

The donor properties of the amino acid methionine were investigated for a number of transition and nontransition ... which does not overlap with the atomic orbitals of the N atoms and the ...