C. Dorrer scite author profile

C. Dorrer

3Publications

36Citation Statements Received

70Citation Statements Given

How they've been cited

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121

Affiliations

Applied Energetics (United States), University of Rochester, Energetics (United States)

Publications

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Microcoulomb (0.7 ± $$\frac{0.4}{0.2}$$ μC) laser plasma accelerator on OMEGA EP

Shaw

Romo-Gonzalez

Lemos

et al. 2021

Sci Rep

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Laser-plasma accelerators (LPAs) driven by picosecond-scale, kilojoule-class lasers can generate particle beams and x-ray sources that could be utilized in experiments driven by multi-kilojoule, high-energy-density science (HEDS) drivers such as the OMEGA laser at the Laboratory for Laser Energetics (LLE) or the National Ignition Facility at Lawrence Livermore National Laboratory. This paper reports on the development of the first LPA driven by a short-pulse, kilojoule-class laser (OMEGA EP) connected to a multi-kilojoule HEDS driver (OMEGA). In experiments, electron beams were produced with electron energies greater than 200 MeV, divergences as low as 32 mrad, charge greater than 700 nC, and conversion efficiencies from laser energy to electron energy up to 11%. The electron beam charge scales with both the normalized vector potential and plasma density. These electron beams show promise as a method to generate MeV-class radiography sources and improved-flux broadband x-ray sources at HEDS drivers.

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

Bromage

Bahk

Bedzyk

et al. 2021

High Pow Laser Sci Eng

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Optical parametric chirped-pulse amplification implemented using multikilojoule Nd:glass pump lasers is a promising approach for producing ultra-intense pulses (>10 23 W/cm 2 ). We report on the MTW-OPAL Laser System, an optical parametric amplifier line (OPAL) pumped by the Nd:doped portion of the Multi-Terawatt (MTW) laser. This midscale prototype was designed to produce 0.5-PW pulses with technologies scalable to tens of PW's. Technology choices made for MTW-OPAL were guided by the longer-term goal of two full-scale OPAL's pumped by the OMEGA EP laser to produce 2  25-PW beams that would be co-located with kilojoulenanosecond UV beams. Several MTW-OPAL campaigns that have been completed since "first light" in March 2020 show that laser design is fundamentally sound, and optimization continues as we prepare for "first focus" campaigns later this year.

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Broadband sum-frequency generation of spectrally incoherent pulses

et al. 2021

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We study and demonstrate the nonlinear frequency conversion of broadband optical pulses from 1053 nm to 351 nm using sum-frequency generation with a narrowband pulse at 526.5 nm. The combination of angular dispersion and noncollinearity cancels out the wave-vector mismatch and its frequency derivative, yielding an order-of-magnitude increase in spectral acceptance compared to conventional tripling. This scheme can support the nonlinear frequency conversion of broadband spectrally incoherent nanosecond pulses generated by high-energy lasers and optical parametric amplifiers to mitigate laser−plasma instabilities occurring during interaction with a target. The experimental results obtained with KDP crystals are in excellent agreement with modeling, demonstrating the generation of spectrally incoherent pulses with a bandwidth larger than 10 THz at 351 nm.

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C. Dorrer

Microcoulomb (0.7 ± $$\frac{0.4}{0.2}$$ μC) laser plasma accelerator on OMEGA EP

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

Broadband sum-frequency generation of spectrally incoherent pulses

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