Jonathan Zuegel at University of Rochester

University	University of Rochester
Position	Laboratory for Laser Energetics
Citations(all)	7002
Citations(since 2020)	3326
Cited By	4667
hIndex(all)	44
hIndex(since 2020)	25
i10Index(all)	106
i10Index(since 2020)	59
Email	Access Email
University Profile Page	University of Rochester
Google Scholar	View Google Scholar Profile

Actively cooled optical substrates for high average power reflective or diffractive optic

2024/2/20

Achievement of target gain larger than unity in an inertial fusion experiment

Physical Review Letters

2024/2/5

B Austin

H-Index: 41

High average power ultrafast laser technologies for driving future advanced accelerators

Journal of Instrumentation

2023/8/21

Tong Zhou

H-Index: 3

Jake Bromage

H-Index: 17

Zenghu Chang

H-Index: 35

Qiang Du

H-Index: 42

Wei Lu

H-Index: 21

Mark Palmer

H-Index: 17

Sergei Tochitsky

H-Index: 16

Jonathan Zuegel

H-Index: 25

Final amplifier of an ultra-intense all-OPCPA system with 13-J output signal energy and 41% pump-to-signal conversion efficiency

Optics Express

2023/7/17

Linear colliders based on laser-plasma accelerators

Journal of Instrumentation

2023/6/1

Ultra-Stable Optical Substrates for High-Average-Power Applications

2023/5/7

Jake Bromage

H-Index: 17

LLE and the Institute of Optics: advancing high-power lasers education at the University of Rochester

2023/3/17

Andrew Berger

H-Index: 19

Jake Bromage

H-Index: 17

Jennifer Kruschwitz

H-Index: 7

Gary Wicks

H-Index: 16

Jonathan Zuegel

H-Index: 25

An all-electronic fail-safe for stimulated Brillouin scattering suppression

2023/3/14

Michael Bock

H-Index: 27

Christophe Dorrer

H-Index: 23

Laser driver module that produces a beam of polychromatic driver pulses using fewer pump lasers

2023/12/7

Substrates for Multikilowatt Average-Power Compressor Gratings: Demonstration of the Actively Cooled “Flow-Cell” Concept

2022/12/11

Jake Bromage

H-Index: 17

Multi-petawatt physics prioritization (mp3) workshop report

arXiv preprint arXiv:2211.13187

2022/11/23

Design and characterization of “flow-cell” integrated-flow active cooling for high-average-power ceramic optics

Optics Express

2022/11/7

Lawson criterion for ignition exceeded in an inertial fusion experiment

Physical review letters

2022/8/8

B Austin

H-Index: 41

Direct-drive laser fusion: status, plans and future

Philosophical Transactions of the Royal Society A

2021/1/25

High-efficiency, fifth-harmonic generation of a joule-level neodymium laser in a large-aperture ammonium dihydrogen phosphate crystal

Optics Express

2021/1/18

G Brent

H-Index: 4

MTW-OPAL: a technology development platform for ultra-intense optical parametric chirped-pulse amplification systems

High Power Laser Science and Engineering

2021/1

Advanced laser development and plasma-physics studies on the multiterawatt laser

Applied Optics

2021/12/20

G Brent

H-Index: 4

Technology Development for Ultra-Intense OPCPA Systems

2019/5/13

Jake Bromage

H-Index: 17

Christophe Dorrer

H-Index: 23

MTW-OPAL—a technology development platform for ultra-intense all-OPCPA systems

2021/5/9

A highly efficient, 10-J output signal amplifier for ultra-intense all-OPCPA systems

2021/3/5

Christophe Dorrer

H-Index: 23

Chengyong Feng

H-Index: 7

Jake Bromage

H-Index: 17

Jonathan Zuegel

University of Rochester

About Jonathan Zuegel

Jonathan Zuegel Information

Jonathan Zuegel Skills & Research Interests

Top articles of Jonathan Zuegel

Actively cooled optical substrates for high average power reflective or diffractive optic

Achievement of target gain larger than unity in an inertial fusion experiment

B Austin

High average power ultrafast laser technologies for driving future advanced accelerators

Tong Zhou

Jake Bromage

Zenghu Chang

Qiang Du

Wei Lu

Mark Palmer

Sergei Tochitsky

Jonathan Zuegel

Final amplifier of an ultra-intense all-OPCPA system with 13-J output signal energy and 41% pump-to-signal conversion efficiency

Linear colliders based on laser-plasma accelerators

Ultra-Stable Optical Substrates for High-Average-Power Applications

Jake Bromage

LLE and the Institute of Optics: advancing high-power lasers education at the University of Rochester

Andrew Berger

Jake Bromage

Jennifer Kruschwitz

Gary Wicks

Jonathan Zuegel

An all-electronic fail-safe for stimulated Brillouin scattering suppression

Michael Bock

Christophe Dorrer

Laser driver module that produces a beam of polychromatic driver pulses using fewer pump lasers

Substrates for Multikilowatt Average-Power Compressor Gratings: Demonstration of the Actively Cooled “Flow-Cell” Concept

Jake Bromage

Multi-petawatt physics prioritization (mp3) workshop report

Design and characterization of “flow-cell” integrated-flow active cooling for high-average-power ceramic optics

Lawson criterion for ignition exceeded in an inertial fusion experiment

B Austin

Direct-drive laser fusion: status, plans and future

High-efficiency, fifth-harmonic generation of a joule-level neodymium laser in a large-aperture ammonium dihydrogen phosphate crystal

G Brent

MTW-OPAL: a technology development platform for ultra-intense optical parametric chirped-pulse amplification systems

Advanced laser development and plasma-physics studies on the multiterawatt laser

G Brent

Technology Development for Ultra-Intense OPCPA Systems

Jake Bromage

Christophe Dorrer

MTW-OPAL—a technology development platform for ultra-intense all-OPCPA systems

A highly efficient, 10-J output signal amplifier for ultra-intense all-OPCPA systems

Christophe Dorrer

Chengyong Feng

Jake Bromage