Cameron F. Rae scite author profile

We report a THz radiation source based on the technique of non-collinear phasematched parametric generation. The source, which is compact and operable at room temperature, generates nanosecond pulses of peak power and energy greater than 1W and 5 nJ respectively. The radiation is continuously tunable over the range 1.2-3.05 THz and is of narrow spectral bandwidth (<100 GHz). The use of intersecting pump and parametric wave cavities results in threshold pump pulse energies below 1 mJ (from a Nd:YAG laser excited at 20 W, 500 microsec by a quasi-CW diode-laser) and close to 50% down-conversion efficiency when operated at twice threshold.

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Hyperspectral imaging of gases with a continuous-wave pump-enhanced optical parametric oscillator

Stothard¹,

Dunn²,

Rae³

2004

Opt. Express

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We demonstrate a system for the active real-time hyperspectral imaging of gases using a combination of a compact, pump-enhanced, continuous-wave optical parametric oscillator as an all-solid-state mid-infrared source of coherent radiation and an electro-mechanical polygonal imager. The wide spectral coverage and high spectral resolution characteristics of this source means that the system is capable of being selectively tuned into the absorption features of a wide variety of gaseous species. As an example we show how the largest absorption coefficient exhibited by methane at 3057.7cm(-1) can be accessed (amongst others) and gas plumes imaged in concentrations as low as 30ppm.m using a parametric oscillator based on periodically-poled RbTiOAsO(4) (PP-RTA).

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Polychromatic optical parametric generation by simultaneous phase matching over a large spectral bandwidth

1997

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The parametric generation of broad spectral bandwidths by the use of suitable phase-matching geometries is reported. Greater than 100-nm simultaneous bandwidth in the visible is generated in a collimated signal beam from a novel, noncollinear phase-matching geometry in a beta-barium borate optical parametric oscillator, which is pumped by the collimated output of a Q -switched and frequency-tripled Nd:YAG laser. Dispersive cavity tuning of the optical parametric oscillator by use of a rotatable Littrow-mounted grating, with a static crystal and pump configuration, is also described. A tunable bandwidth of >100 nm is also demonstrated.

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Line-narrowed, compact, and coherent source of widely tunable terahertz radiation

Stothard

Edwards

Walsh

et al. 2008

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We report a technique for line-narrowing terahertz radiation produced through parametric generation. By incorporating an etalon within the idler-wave cavity of the parametric oscillator, radiation is generated with a linewidth of 1GHz (freerunning linewidth 50–100GHz) and with a center frequency continuously tunable over a band >50GHz, settable anywhere within the coarse tuning range of the device (1–3THz). When implemented within an intracavity cavity geometry, pulses of terahertz radiation of duration ∼10ns and energy ∼30nJ are generated at repetition rates up to 400Hz (implying mean powers of >10μW and peak powers of ∼3W) in a compact device.

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Injection-seeded intracavity terahertz optical parametric oscillator

et al. 2009

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Cameron F. Rae

Compact source of continuously and widely-tunable terahertz radiation.

Hyperspectral imaging of gases with a continuous-wave pump-enhanced optical parametric oscillator

Polychromatic optical parametric generation by simultaneous phase matching over a large spectral bandwidth

Line-narrowed, compact, and coherent source of widely tunable terahertz radiation

Injection-seeded intracavity terahertz optical parametric oscillator

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