Physics

Learn about ultracold neutrons, neutrons with kinetic energies below 300 neV, used extensively in physics research.

Learn about Spin-Exchange Relaxation-Free (SERF) Magnetometry, a cutting-edge technique for precise magnetic field measurement based on atomic physics interactions.

Learn how interferometry measures properties by superposing waves, its application in Bose-Einstein condensates, and the resulting insights into quantum mechanics.

Explore choked flow in fluid mechanics: its causes, effects, and control methods, crucial for engineering and environmental applications.

Quantum gas microscopes are advanced tools that allow precise observation and manipulation of individual atoms in ultracold quantum gases.

Antihydrogen spectroscopy examines the properties of antihydrogen, the antimatter counterpart of hydrogen, to test fundamental physical symmetries.

An in-depth examination of Bose-Einstein Condensates (BECs), exploring their formation, physical properties, and applications in quantum physics.

Atomic-scale manipulation using scanning probe techniques for precise material and molecule arrangement in nanotechnology.

Superradiance occurs when a group of atoms collectively emits a burst of light, greatly amplified by their synchronized energy states.

Optical molasses cooling is a technique in atomic physics that leverages light properties to significantly slow atom movement, enabling their cooling to ultra-low temperatures.