Discrete frequency modes, or bins, present a blend of opportunities and challenges for
photonic quantum information processing. Frequency-bin-encoded photons are readily …

Quantum optical microcombs in integrated ring resonators generate entangled photon pairs
over many spectral modes, and allow the preparation of high-dimensional qudit states …

Biphoton frequency combs (BFCs) are promising quantum sources for large-scale and high-
dimensional quantum information and networking systems. In this context, the spectral purity …

We demonstrate nonlocal modulation of entangled photons with truly distributed RF clocks.
Leveraging a custom radio-over-fiber (RFoF) system characterized via classical spectral …

Squeezed light sources, featuring significant degrees of squeezing, flexible time-frequency
attributes, and a compact salable form factor, serve as crucial building blocks in an …

We investigate experimentally the nonlocal phase modulation of multiple-frequency-mode,
continuous-variable entangled twin beams. We use a pair of electro-optical phase …

Entangled graph states can be used for quantum sensing and computing applications. Error
correction in measurement-based quantum computing schemes will require the construction …

This thesis discusses the use of a fiber optic system to synchronize GHz frequency radio-
frequency signals over distances of up to 5 km and its future applications in quantum …

Quantum defects in thin film structures are a promising avenue for quantum applications.
These defects, often resulting from structural anomalies lead to distinct electronic and optical …

Broadband time-energy entangled photons feature strong temporal correlations with
potential for precision delay metrology, but previous work has leveraged only time-of-flight …