C. Renner scite author profile

C. Renner

5Publications

40Citation Statements Received

49Citation Statements Given

How they've been cited

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Affiliations

Montana State University, National Nuclear Energy Commission

Publications

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Recovery of spectral features readout with frequency-chirped laser fields

et al. 2005

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A data-processing technique is proposed for use with conventional frequency-chirped absorption spectroscopy to ensure accurate mapping of spectral features into time-domain signatures with arbitrarily fast readout chirp rates. This technique recovers the spectrum from a signal that is distorted owing to the fast chirp rate and therefore facilitates fast measurement of the spectral features over a broad spectral range with high resolution. Both numerical simulations and experimental results are presented.

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Broadband photonic arbitrary waveform generation based on spatial-spectral holographic materials

et al. 2007

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We discuss an approach for the practical implementation of photonic arbitrary waveform generation of microwave signals. We describe and demonstrate an approach using spatial-spectral (S2) holography in rare earth ion doped crystals that has the potential to achieve extremely wide bandwidths ͑Ͼ40 GHz͒ using conventional electro-optic phase modulators and low bandwidth ͑Ͻ100 MHz͒ control electronics. We provide analysis of this approach, show simulations, and perform experimental demonstrations of the technique. We show a pulse compression factor of ϳ15,000 and demonstrate the largest effective bandwidth of 3.8 GHz to date for pulse compression using S2 holography. We also show control and manipulation of up to 30 independent compressed pulses for the creation of arbitrary waveforms.

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Compressive laser ranging

2011

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Compressive sampling has been previously proposed as a technique for sampling radar returns and determining sparse range profiles with a reduced number of measurements compared to conventional techniques. By employing modulation on both transmission and reception, compressive sensing in ranging is extended to the direct measurement of range profiles without intermediate measurement of the return waveform. This compressive ranging approach enables the use of pseudorandom binary transmit waveforms and return modulation, along with low-bandwidth optical detectors to yield high-resolution ranging information. A proof-of-concept experiment is presented. With currently available compact, off-the-shelf electronics and photonics, such as high data rate binary pattern generators and high-bandwidth digital optical modulators, compressive laser ranging can readily achieve subcentimeter resolution in a compact, lightweight package.

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Conditions for highly efficient anti-Stokes conversion in gas-filled hollow core waveguides

Barber¹,

Renner²,

Reibel³

et al. 2010

Opt. Express

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Using a four-mode theoretical analysis we show that highly efficient anti-Stokes conversion in waveguides is more challenging to realize in practice than previously thought. By including the dynamics of conversion to 2(nd) Stokes via stimulated Raman scattering and four-wave mixing, models predict only narrow, unstable regions of highly efficient anti-Stokes conversion. Experimental results of single-pass Raman conversion in confined capillary waveguides validate these predictions. This places more stringent conditions on systems that require highly efficient single-pass anti-Stokes conversion.

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Ultra-broadband optical chirp linearization for precision length metrology applications

Reibel

Roos

Berg

et al. 2010

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C. Renner

Recovery of spectral features readout with frequency-chirped laser fields

Broadband photonic arbitrary waveform generation based on spatial-spectral holographic materials

Compressive laser ranging

Conditions for highly efficient anti-Stokes conversion in gas-filled hollow core waveguides

Ultra-broadband optical chirp linearization for precision length metrology applications

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