MIT “Light Squeezer” Reduces Quantum Noise in Lasers, Enhances Quantum Computing & Gravitational-Wave Detection

MIT “Light Squeezer” Reduces Quantum Noise in Lasers, Enhances Quantum Computing and Gravitational-Wave Detection
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The marble-sized system could enable better laser precision for quantum computing and gravitational-wave detection. This illustration shows an artist’s interpretation of the system. Credit: Christine Daniloff, MIT Portable System Boosts Laser Precision, at Room Temperature Physicists at MIT have designed a quantumlight squeezer” that reduces quantum noise in an incoming laser beam by 15 percent. It is the first system of its kind to work at room temperature, making it amenable to a compact, portable setup that may be added to high-precision experiments to improve laser […]

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