Physics

Double electron capture is a rare nuclear decay where an unstable nucleus absorbs two electrons, leading to a decrease in atomic number while the mass number remains unchanged.

Proton emission is a type of radioactive decay observed in neutron-deficient isotopes, crucial for understanding atomic nucleus structure and stability.

The nuclear gyromagnetic ratio is a fundamental constant measuring the magnetic moment to angular momentum ratio of atomic nuclei, crucial for NMR, MRI, and quantum computing.

Nuclear lattice dynamics delves into the interactions and behaviors of atomic nuclei within a crystal lattice, crucial for understanding material properties.

A sophisticated device in atomic physics, an Electron Beam Ion Trap (EBIT) manipulates and studies highly charged ions for diverse scientific applications.

Overview of neutron deficient isotopes, highlighting their formation, decay processes, and significance in science and medicine.

Explore the world of microfluidics, where precision, integration, and fluid dynamics revolutionize diagnostics, drug screening, and research.

An overview of proton-rich nuclei, atomic nuclei with more protons than neutrons, key to understanding nuclear physics, astrophysics, and medical imaging.

Gamma-ray spectroscopy is an analytical technique that identifies the energy and intensity of gamma-rays emitted by materials, aiding in understanding atomic and nuclear structures.

Nuclear pairing correlation is a key concept in nuclear physics explaining the stability of atomic nuclei through nucleons pairing with opposite spins.