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outperform existing OCT disadvantages, either for those based on classical supercontinuum light sources or single-photon quantum light sources. This experimental research will involve designing, developing
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. The properties include single-photon or Fock states, entangled states (in photon numbers, polarizations, wavelengths, and delay times), amplitude/phase squeezed states, and/or bright squeezed vacuum states of
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algorithms, quantum machine learning, materials chemistry and condensed-matter physics, experimental and computational photonics, and ongoing efforts within the interdepartmental Quantum Science & Engineering
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algorithms, quantum machine learning, materials chemistry and condensed-matter physics, experimental and computational photonics, and ongoing efforts within the interdepartmental Quantum Science & Engineering