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Miniaturization of Optical Components Enables Atom Cooling

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GAITHERSBURG, Md., Jan. 26, 2021 — National Institute of Standards and Technology (NIST) researchers miniaturized the optical components necessary for atom cooling, achieving a step toward employing the technology on microchips. The research holds implications for atomic clocks, navigation without GPS, and the simulation of quantum systems. To cool atoms is to slow them down, which enables them to be studied more closely. At room temperature, atoms travel close to the speed of sound, which makes the study of atomic interactions and transitions between atomic energy levels difficult. When cooled to nearly absolute zero,...Read full article

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    Published: January 2021
    Glossary
    laser cooling
    Laser cooling is a technique used to reduce the temperature of a material or a collection of atoms or molecules by using laser light. It is based on the principle of selective absorption and emission of photons by atoms or molecules. In laser cooling, specially tuned laser beams are directed at the material or atoms. When these atoms absorb photons from the laser light, they gain momentum in the direction of the laser beam due to the momentum carried by the photons. However, according to...
    Research & TechnologyLasersOpticsmetasurfaceplanar opticslaser coolinglaser cooling atomsatomabsolute zeroNISTultracold

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