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Novel superradiant laser promises to make ultrastable light sources practicalCQT researchers and their US collaborators predict that hot atomic beams could offer world-class laser stability in a simple, rugged setup. “The idea is to democratise ultrastable lasers,” says CQT PI Travis Nicholson, co-author on the paper in Physical Review Letters. |
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School students learn from surprise twist in hands-on quantum key distribution workshopHaving seen how engaged students were in the QKD experiments, CQT researchers have published a blueprint in American Journal of Physics for the hands-on workshop they designed. |
From PhD student to Senior Research Scientist, Kyle has been at CQT since it was founded, and is working on the lutetium optical clock project in Murray’s lab.
In our Q&A with CQTian Ayesha Reezwana, she explains why she relishes the opportunity to work on satellites in CQT’s SpooQy lab.
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Doing quantum machine learning without going digitalCQT researchers and their collaborators in Greece and China describe a new approach to quantum machine learning. It is a fully analogue scheme rather than digital. The new idea is to use a quantum system’s natural quantum dynamics as a tool to learn complex functions and recognise patterns in data. |
Preprints
- Directional THz generation in hot Rb vapor excited to a Rydberg state
- Optimal single-shot discrimination of optical modes
- Coupling Light to Higher Order Transverse Modes of a Near-Concentric Optical Cavity
- Randomized linear gate set tomography
- Randomized benchmarking in the presence of time-correlated dephasing noise
Find us
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Centre for Quantum Technologies, NUS |
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cqtsec@nus.edu.sg |
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+65 6516 2818 |
