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Jonathan C. F. Matthews

About Jonathan C. F. Matthews

Jonathan C. F. Matthews, With an exceptional h-index of 31 and a recent h-index of 28 (since 2020), a distinguished researcher at University of Bristol, specializes in the field of Quantum optics, integrated quantum photonics, quantum technologies.

His recent articles reflect a diverse array of research interests and contributions to the field:

Heterogeneous Integration of Solid-State Quantum Systems with a Foundry Photonics Platform

Sub- axial precision depth imaging with entangled two-color Hong-Ou-Mandel microscopy

Nitrogen-vacancy centres integrated with foundry silicon nitride photonics

High bandwidth homodyne detection in a monolithic ePIC process

Hybrid Integrated Photonic/Electronic Homodyne Detector for GHz Baud Rate Continuous Variable Quantum Key Distribution

Fidelity estimation of quantum states on a silicon photonic chip

GHz configurable photon pair generation from a silicon nonlinear interferometer

Semi-device independent nonlocality certification for near-term quantum networks

Jonathan C. F. Matthews Information

University

Position

Associate Professor

Citations(all)

7552

Citations(since 2020)

4018

Cited By

5179

hIndex(all)

31

hIndex(since 2020)

28

i10Index(all)

46

i10Index(since 2020)

42

Email

University Profile Page

Google Scholar

Jonathan C. F. Matthews Skills & Research Interests

Quantum optics

integrated quantum photonics

quantum technologies

Top articles of Jonathan C. F. Matthews

Heterogeneous Integration of Solid-State Quantum Systems with a Foundry Photonics Platform

ACS Photonics 2023

2023/8/31

Sub- axial precision depth imaging with entangled two-color Hong-Ou-Mandel microscopy

Physical Review A

2023/8/24

Nitrogen-vacancy centres integrated with foundry silicon nitride photonics

2023/6/26

High bandwidth homodyne detection in a monolithic ePIC process

2023/6/26

Jonathan Frazer
Jonathan Frazer

H-Index: 17

Hybrid Integrated Photonic/Electronic Homodyne Detector for GHz Baud Rate Continuous Variable Quantum Key Distribution

2023/6/26

Rupesh Kumar
Rupesh Kumar

H-Index: 0

Jonathan Frazer
Jonathan Frazer

H-Index: 17

Jonathan Matthews
Jonathan Matthews

H-Index: 2

Fidelity estimation of quantum states on a silicon photonic chip

arXiv preprint arXiv:2306.01068

2023/6/1

Sabine Wollmann
Sabine Wollmann

H-Index: 8

Xiaogang Qiang
Xiaogang Qiang

H-Index: 8

Ashley Montanaro
Ashley Montanaro

H-Index: 24

Noah Linden
Noah Linden

H-Index: 30

GHz configurable photon pair generation from a silicon nonlinear interferometer

arXiv preprint arXiv:2305.16033

2023/5/25

Jonathan Frazer
Jonathan Frazer

H-Index: 17

Semi-device independent nonlocality certification for near-term quantum networks

arXiv preprint arXiv:2305.14116

2023/5/23

Ana Costa
Ana Costa

H-Index: 2

Xiaogang Qiang
Xiaogang Qiang

H-Index: 8

Jianwei Wang
Jianwei Wang

H-Index: 18

Will Mccutcheon
Will Mccutcheon

H-Index: 8

Roope Uola
Roope Uola

H-Index: 13

Sabine Wollmann
Sabine Wollmann

H-Index: 8

A Bi-CMOS electronic-photonic integrated circuit quantum light detector

arXiv preprint arXiv:2305.08990

2023/5/15

Jonathan Frazer
Jonathan Frazer

H-Index: 17

A CMOS-compatible heterogeneous interferometer for chip-scale temperature sensing

Applied Physics Letters

2022/12/26

Estimating the concentration of chiral media with bright squeezed light

Applied Physics Letters

2022/10/31

Quantum-limited Loss and Phase Estimation Using All-pass Ring Resonators

2022/10/17

Quantum-limited absorption estimation with ring resonators

Proceedings of the Optical Sensors and Sensing Congress 2022 (AIS, LACSEA, Sensors, ES)

2022/9/22

Estimating the concentration of chiral analytes with bright squeezed light

arXiv e-prints

2022/8

Coherent States in Ring Resonators Outperform Any Quantum Probe Single-pass Absorption Estimation Strategy

2022/6/13

Advantage of coherent states in ring resonators over any quantum probe single-pass absorption estimation strategy

Physical Review Letters

2022/6/6

Strategies and components for quantum limited precision measurement in integrated quantum photonics

2022/3/9

Jonathan Frazer
Jonathan Frazer

H-Index: 17

Sabine Wollmann
Sabine Wollmann

H-Index: 8

Shot-noise limited homodyne detection for MHz quantum light characterisation in the 2 µm band

Optics Express

2022/2/28

Joshua W Silverstone
Joshua W Silverstone

H-Index: 14

2022 Roadmap on integrated quantum photonics

Journal of Physics: Photonics

2022/1/31

Galan Moody
Galan Moody

H-Index: 22

William Loh
William Loh

H-Index: 12

Cheryl Sorace-Agaskar
Cheryl Sorace-Agaskar

H-Index: 13

Lin Chang
Lin Chang

H-Index: 16

Niels Quack
Niels Quack

H-Index: 15

Christophe Galland
Christophe Galland

H-Index: 23

Carsten Schuck
Carsten Schuck

H-Index: 17

Neil Sinclair
Neil Sinclair

H-Index: 17

Tin Komljenovic
Tin Komljenovic

H-Index: 23

Shayan Mookherjea
Shayan Mookherjea

H-Index: 19

Marina Radulaski
Marina Radulaski

H-Index: 17

Stephan Reitzenstein
Stephan Reitzenstein

H-Index: 39

Benjamin Pingault
Benjamin Pingault

H-Index: 11

Bartholomeus Machielse
Bartholomeus Machielse

H-Index: 8

Alexey Akimov
Alexey Akimov

H-Index: 3

Juanjuan Lu
Juanjuan Lu

H-Index: 7

Wentao Jiang
Wentao Jiang

H-Index: 8

Stephan Steinhauer
Stephan Steinhauer

H-Index: 19

Val Zwiller
Val Zwiller

H-Index: 43

John Chiaverini
John Chiaverini

H-Index: 25

Eleni Diamanti
Eleni Diamanti

H-Index: 3

Poissonian twin-beam states and the effect of symmetrical photon subtraction in loss estimations

Physical Review A

2021/12/27

See List of Professors in Jonathan C. F. Matthews University(University of Bristol)

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