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Stimulated Emission

All articles tagged with #stimulated emission

science-and-technology2 years ago

Quantum Light Manipulation Achieved in Major Breakthrough.

Researchers from the University of Sydney and the University of Basel have successfully manipulated and identified small numbers of interacting photons, allowing for the manipulation of quantum light. This work represents an unprecedented landmark development for quantum technologies and has the potential to lead to huge advancements in quantum computing. The ability to identify and manipulate photon-bound states is a vital first step toward harnessing quantum light for practical use, and the next steps include generating states of light useful for "fault-tolerant quantum computing."

via Yahoo Life|
#photon#quantum-computing#quantum-light
science-and-technology2 years ago

"Quantum Light Manipulation Achieves Record-breaking Speeds for Ultrafast Electronics"

An international team of physicists has successfully manipulated small numbers of light particles, known as photons, that have a strong relationship with each other. The team shot both a single photon and a pair of bound photons at a quantum dot and could measure a direct time delay between the photon on its own and the ones that were bound. This breakthrough could lead to technology such as lasers with quantum sensitivity for medical imaging and advances in quantum-enhanced measurement techniques and photonic quantum computing.

via ScienceAlert|
#medical-imaging#photons#quantum-computing
science-and-technology2 years ago

Quantum Light Manipulation Now Possible, Say Scientists.

Scientists at the University of Sydney and the University of Basel have demonstrated the ability to manipulate and identify small numbers of interacting photons, representing an important landmark in the development of quantum technologies. The scientists could measure the direct time delay between one photon and a pair of bound photons scattering off a single quantum dot, a type of artificially created atom. This opens the door to the manipulation of what we can call 'quantum light', which can be important for applications in biological microscopy and quantum computing.

via Phys.org|
#interferometers#photons#quantum-computing