NIST only participates in the February and August reviews.
name |
email |
phone |
|
Richard Mirin |
mirin@boulder.nist.gov |
303.497.7955 |
Sae Woo Nam |
nams@boulder.nist.gov |
303.497.3148 |
Jeffrey Michael Shainline |
jeffrey.shainline@nist.gov |
303.497.6292 |
To maximally utilize the potential of quantum states of light for advanced measurements and computation, integration in a chip-scale nanophotonic environment is required. In particular, the integration of single-photon sources with spectral filters and superconducting detectors on a single chip will enable dramatic new functionality and scalability. We are developing these systems utilizing silicon photonic devices with superconducting-nanowire single-photon detectors for applications in quantum information processing, loophole-free Bell measurements, and sources of quantum randomness.
References
Shainline J, et al, Optics Express 25 10322 (2017)
Gentry, et al: Optica 2: 1065, 2015
Shalm, et al: Physical Review Letters 115: 250402 2015
Integrated photonics; Quantum optics; Quantum physics; Quantum computing; Entanglement; Nanofabrication; Single-photon detectors; Superconductors; Physics;
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