Jeremy C. Adcock
YOU?
Author Swipe
View article: Scalable temporal multiplexing of telecom photons via thin-film lithium niobate photonics
Scalable temporal multiplexing of telecom photons via thin-film lithium niobate photonics Open
Efficient single-photon generation remains a big challenge in quantum photonics. A promising approach to overcome this challenge is to employ active multiplexing—repeating a nondeterministic photon pair generation process across orthogonal…
View article: Temporal Multiplexing of Heralded Photons Based on Thin Film Lithium Niobate Photonics
Temporal Multiplexing of Heralded Photons Based on Thin Film Lithium Niobate Photonics Open
Heralded photons from a silicon source are temporally multiplexed utilizing thin film lithium niobate photonics. The time-multiplexed source, operating at a rate of R = 62.2 MHz, enhances single photon probability by 3.25 $\pm$ 0.05.
View article: High‐Resolution Single Photon Level Storage of Telecom Light Based on Thin Film Lithium Niobate Photonics
High‐Resolution Single Photon Level Storage of Telecom Light Based on Thin Film Lithium Niobate Photonics Open
This study presents an experimental analysis of high‐resolution single photon buffers based on low‐loss thin film lithium niobate (TFLN) photonic devices operating at room temperature. While dynamically controlling writing and reading oper…
View article: High Resolution On-Chip Thin-Film Lithium Niobate Single-Photon Buffer
High Resolution On-Chip Thin-Film Lithium Niobate Single-Photon Buffer Open
We experimentally demonstrate a room-temperature, voltage controlled, short-term quantum photonics memory on a lithium niobate chip. Our chip is capable of resolving 100 ps time steps with 0.74 dB loss per round-trip.
View article: Quantum prospects for hybrid thin-film lithium niobate on silicon photonics
Quantum prospects for hybrid thin-film lithium niobate on silicon photonics Open
View article: Enhancement of a silicon waveguide single photon source by temporal multiplexing
Enhancement of a silicon waveguide single photon source by temporal multiplexing Open
Efficient generation of single photons is one of the key challenges of building photonic quantum technology, such as quantum computers and long-distance quantum networks. Photon source multiplexing—where successful pair generation is heral…
View article: Graphene on Silicon Photonics: Light Modulation and Detection for Cutting-Edge Communication Technologies
Graphene on Silicon Photonics: Light Modulation and Detection for Cutting-Edge Communication Technologies Open
Graphene—a two-dimensional allotrope of carbon in a single-layer honeycomb lattice nanostructure—has several distinctive optoelectronic properties that are highly desirable in advanced optical communication systems. Meanwhile, silicon phot…
View article: Error-protected qubits in a silicon photonic chip
Error-protected qubits in a silicon photonic chip Open
View article: Advances in Silicon Quantum Photonics
Advances in Silicon Quantum Photonics Open
Quantum technology is poised to enable a step change in human capability for computing, communications and sensing. Photons are indispensable as carriers of quantum information-they travel at the fastest possible speed and readily protecte…
View article: Mapping graph state orbits under local complementation
Mapping graph state orbits under local complementation Open
Graph states, and the entanglement they posses, are central to modern quantum computing and communications architectures. Local complementation – the graph operation that links all local-Clifford equivalent graph states – allows us to clas…
View article: Hard limits on the postselectability of optical graph states
Hard limits on the postselectability of optical graph states Open
Coherent control of large entangled graph states enables a wide variety of\nquantum information processing tasks, including error-corrected quantum\ncomputation. The linear optical approach offers excellent control and\ncoherence, but toda…
View article: Advances in quantum machine learning
Advances in quantum machine learning Open
Here we discuss advances in the field of quantum machine learning. The following document offers a hybrid discussion; both reviewing the field as it is currently, and suggesting directions for further research. We include both algorithms a…