Tom Robinson scite author profile

Tom Robinson

5Publications

97Citation Statements Received

0Citation Statements Given

How they've been cited

147

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Affiliations

University of Oxford, Raytheon Technologies (United States)

Publications

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Generation of a train of ultrashort pulses from a compact birefringent crystal array

et al. 2007

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A linear array of n calcite crystals is shown to allow the generation of a high contrast (>10:1) train of 2(n) high energy (>100 microJ) pulses from a single ultrafast laser pulse. Advantage is taken of the pulse-splitting properties of a single birefringent crystal, where an incident laser pulse can be split into two pulses with orthogonal polarizations and equal intensity, separated temporally in proportion to the thickness of the crystal traversed and the difference in refractive indices of the two optic axes. In the work presented here an array of seven calcite crystals of sequentially doubled thickness is used to produce a train of 128 pulses, each of femtosecond duration. Readily versatile properties such as the number of pulses in the train and variable mark-space ratio are realized from such a setup.

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Comparison of parallel and perpendicular polarized counterpropagating light for suppressing high harmonic generation

et al. 2007

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Quasi-phase-matching high harmonic generation using trains of pulses produced using an array of birefringent plates

O’Keeffe¹,

Robinson²,

Hooker³

2012

Opt. Express

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Quasi-phase-matched high harmonic generation using trains of up to 8 counter-propagating pulses is explored. For trains of up to 4 pulses the measured enhancement of the harmonic signal scales with the number of pulses N as (N + 1)², as expected. However, for trains with N > 4, no further enhancement of the harmonic signal is observed. This effect is ascribed to changes of the coherence length Lc within the generating medium. Techniques for overcoming the variation of Lc are discussed. The pressure dependence of quasi-phase-matching is investigated and the switch from true-phase-matching to quasi-phase-matching is observed.

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Generation and control of ultrafast pulse trains for quasi-phase-matching high-harmonic generation

et al. 2010

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Advances in ladar components and subsystems at Raytheon

Jack

Chapman

Edwards

et al. 2012

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Raytheon is developing NIR sensor chip assemblies (SCAs) for scanning and staring 3D LADAR systems. High sensitivity is obtained by integrating high performance detectors with gain, i.e., APDs with very low noise Readout Integrated Circuits (ROICs). Unique aspects of these designs include: independent acquisition (non-gated) of pulse returns, multiple pulse returns with both time and intensity reported to enable full 3D reconstruction of the image. Recent breakthrough in device design has resulted in HgCdTe APDs operating at 300K with essentially no excess noise to gains in excess of 100, low NEP <1nW and GHz bandwidths and have demonstrated linear mode photon counting. SCAs utilizing these high performance APDs have been integrated and demonstrated excellent spatial and range resolution enabling detailed 3D imagery both at short range and long ranges. In the following we will review progress in real-time 3D LADAR imaging receiver products in three areas: (1) scanning 256 × 4 configuration for the Multi-Mode Sensor Seeker (MMSS) program and (2) staring 256 × 256 configuration for the Autonomous Landing and Hazard Avoidance Technology (ALHAT) lunar landing mission and (3) Photon-Counting SCAs which have demonstrated a dramatic reduction in dark count rate due to improved design, operation and processing.

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Tom Robinson

Generation of a train of ultrashort pulses from a compact birefringent crystal array

Comparison of parallel and perpendicular polarized counterpropagating light for suppressing high harmonic generation

Quasi-phase-matching high harmonic generation using trains of pulses produced using an array of birefringent plates

Generation and control of ultrafast pulse trains for quasi-phase-matching high-harmonic generation

Advances in ladar components and subsystems at Raytheon

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