Randall T. Hanna scite author profile

Randall T. Hanna

5Publications

27Citation Statements Received

0Citation Statements Given

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Johns Hopkins University Applied Physics Laboratory, The Ohio State University

Publications

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Moderate repetition rate ultra-intense laser targets and optics using variable thickness liquid crystal films

Poole

Willis

Cochran

et al. 2016

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Liquid crystal films are variable thickness, planar targets for ultra-intense laser matter experiments such as ion acceleration. Their target qualities also make them ideal for high-power laser optics such as plasma mirrors and waveplates. By controlling parameters of film formation, thickness can be varied on-demand from 10 nm to above 50 μm, enabling real-time optimization of laser interactions. Presented here are results using a device that draws films from a bulk liquid crystal source volume with any thickness in the aforementioned range. Films form within 2 μm of the same location each time, well within the Rayleigh range of even tight F/# systems, thus removing the necessity for realignment between shots. The repetition rate of the device exceeds 0.1 Hz for sub-100 nm films, facilitating higher repetition rate operation of modern laser facilities.

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Range-gated active short-wave infrared imaging for rain penetration

et al. 2021

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Measuring atmospheric turbulence along folded paths using a laser-illuminated differential image motion monitor

Hanna

Brown

et al. 2022

Appl. Opt.

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A laser-illuminated differential image motion monitor (DIMM) is presented that is able to measure the atmospheric coherence length r 0 along horizontal ground paths. This is accomplished by implementing a mono-static setup in which the transmitter and receiver are co-located and transmit to a retroreflective target. The impact of propagating along a folded path through the same volume of turbulent atmosphere is investigated in detail and the overall impact to angle-of-arrival measurements described. In addition, an outdoor test campaign was conducted to validate the findings by testing two commercial scintillometers and the laser DIMM side by side in both bi-static and mono-static configurations. Both analytical and experimental results show that under certain conditions, folded-path propagation can be treated identically to traditional single-path propagation.

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Numerical simulation of a large area scintillometer and laser differential image motion monitor

et al. 2021

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Measurements of atmospheric turbulence along a path can be quantified by scintillometers and differential image motion monitors (DIMMs). The two instruments often measure different levels of turbulence, sometimes varying by nearly an order of magnitude. A high-fidelity numerical simulation was leveraged to assess the measurement performance of both a scintillometer and a DIMM system. When a non-ideal detector is combined with range-dependent turbulence, significant differences between the scintillometer and DIMM are observed. The difference in measurements obtained with the numerically simulated scintillometer and DIMM was consistent with those observed in side-by-side measurements with the instruments.

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Initial test of MITA/DIMM with an operational CBP system

Baldwin

Hanna

Brown

et al. 2018

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Randall T. Hanna

Moderate repetition rate ultra-intense laser targets and optics using variable thickness liquid crystal films

Range-gated active short-wave infrared imaging for rain penetration

Measuring atmospheric turbulence along folded paths using a laser-illuminated differential image motion monitor

Numerical simulation of a large area scintillometer and laser differential image motion monitor

Initial test of MITA/DIMM with an operational CBP system

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