Over the last few decades, nonlinear optics has become significantly more nonlinear,
traversing nearly a billionfold improvement in energy efficiency, with ultrafast nonlinear …

Optical pulse sha** stands as a formidable technique in ultrafast optics, radio-frequency
photonics, and quantum communications. While existing systems rely on bulk optics or …

Nonlinear photonics has unveiled new avenues for applications in metrology, spectroscopy,
and optical communications. Recently, there has been a surge of interest in integrated …

Fiber-optical networks are well established to accommodate global data traffic via coherent
information transmission. The next generation of telecommunications will require the …

Raman scattering has found renewed interest owing to the development of gas-filled hollow-
core fibers, which constitute a unique platform for exploration of novel ultrafast nonlinear …

We showcase a fully on-chip CMOS-fabricated silicon photonic integrated circuit employing
a bidirectionally pumped microring and polarization splitter-rotators tailored for the …

The examination of entanglement across various degrees of freedom has been pivotal in
augmenting our understanding of fundamental physics, extending to high dimensional …

Linear optical quantum networks, consisting of a quantum input state and a multiport
interferometer, are an important building block for many quantum technological concepts …

Microcavities stand out as competitive tools in the development of quantum frequency
combs (QFCs) for multiphoton entanglement sources, frequency-multiplexed single-photon …

GKP states, introduced by Gottesman, Kitaev, and Preskill, are continuous variable logical
qubits that can be corrected for errors caused by phase space displacements. Their …