: Squeezed vacuum states are now used in LIGO to detect gravitational waves by reducing background quantum noise.

: Noise reduction allows for sub-diffraction imaging, capturing details once hidden by optical "fuzziness." Trapping and Cooling: Holding onto Light and Matter

: Placing an atom inside a highly reflective mirror cavity to enhance its interaction with a single mode of light. Future Horizons

Quantum Optics Including: Noise Reduction, Trapp...

: Squeezed vacuum states are now used in LIGO to detect gravitational waves by reducing background quantum noise.

: Noise reduction allows for sub-diffraction imaging, capturing details once hidden by optical "fuzziness." Trapping and Cooling: Holding onto Light and Matter Quantum Optics Including Noise Reduction, Trapp...

: Placing an atom inside a highly reflective mirror cavity to enhance its interaction with a single mode of light. Future Horizons : Squeezed vacuum states are now used in