Physics

Atomic scale electronics involves using single atoms or molecules in circuits, potentially revolutionizing efficiency and size in the electronics industry.

Explore the efficient design, lift dynamics, and speed of hydrofoil technology, and its impact on maritime engineering and environment.

Explore the significance of amplitude in motion, its measurement, impact, and optimization across various fields including engineering and science.

Atomtronics is a field merging quantum physics and technology, using ultra-cold atoms to mimic electronic circuit behavior for advanced technological applications.

The Hubbard Model is a mathematical framework in solid-state physics for studying electron behavior and interactions in lattice structures, essential for understanding high-temperature superconductivity and magnetism.

An introduction to Mott insulators, materials that act as insulators despite a band structure suggesting conductivity, influenced by strong electron correlations.

Bragg scattering, or Bragg diffraction, is a method in solid-state physics and crystallography that involves the scattering of waves like X-rays off atomic planes in crystals.

An optical lattice is a periodic structure formed by interfering laser beams used to trap and manipulate particles like atoms and molecules.

Learn about atomic lattice structures and their critical role in determining the properties of materials in physics and engineering.

Atom optics is a physics subfield focusing on controlling atomic and molecular beams with light, similar to traditional optics but using electromagnetic fields and optical elements.