Lasers: Fundamentals And Applications -

Lasers, an acronym for , generate intense beams of coherent, monochromatic light through a cascade of photon "cloning" . Since their invention in 1960, they have evolved from a "solution in search of a problem" to a foundational technology in modern science, medicine, and industry. Fundamental Physics: How Lasers Work

For a laser to function, it must achieve , where more atoms exist in an excited state than in a ground state. Without this imbalance, incoming photons would simply be re-absorbed rather than multiplied. Essential Components of a Laser NIF's Guide to How Lasers Work Lasers: fundamentals and applications

Laser operation is governed by quantum mechanics and three primary interactions between light and matter: Lasers, an acronym for , generate intense beams

An atom absorbs an incoming photon, causing an electron to jump to a higher energy level. Without this imbalance, incoming photons would simply be