Molly R. Krogstad scite author profile

Molly R. Krogstad

4Publications

51Citation Statements Received

76Citation Statements Given

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Affiliations

Quantum Group (United States), University of Colorado Boulder, University of Rochester

Publications

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Thermal ghost imaging with averaged speckle patterns

et al. 2012

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We present theoretical and experimental results showing that a thermal ghost imaging system can produce images of high quality even when it uses detectors so slow that they respond only to intensity-averaged (that is, "blurred") speckle patterns, as long as the collected signal variation is predominantly caused by the random fluctuation of the incident speckle field rather than other noise sources. In our experimental study, we show that the quality of the ghost image is not degraded when as many as 25 speckle patterns are averaged together for each measurement. This surprising result comes from the fact that the averaging of speckle patterns leads to a decrease in the contrast but not in the kurtosis, and the image quality of a ghost imaging system is dependent on the kurtosis rather than the contrast ratio of the illuminating field. These results suggest that a broad class of imaging systems based on the use of speckle techniques can be implemented even using detectors that respond slowly on the time scale of the fluctuating speckle pattern.

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High quality chalcogenide-silica hybrid wedge resonator

et al. 2017

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Chalcogenide glasses, with high nonlinearity and low loss, have captured research interest as an integrated device platform for near- and mid-infrared nonlinear optical devices. Compared to silicon-based microfabrication technologies, chalcogenide fabrication processes are less mature and a major challenge is obtaining high quality devices. In this paper, we report a hybrid resonator design leveraging a high quality silica resonator to achieve high Q factors with chalcogenide. The device is composed of a thin chalcogenide layer deposited on a silica wedge resonator. The hybrid resonators exhibit loaded Q factors up to 1.5 x 10 in the near-infrared region. We also measured the effective thermo-optic coefficient of the device to be 5.5x10/K, which agreed well with the bulk value. Thermal drift of the device can be significantly reduced by introducing a titanium dioxide cladding layer with a negative thermo-optic coefficient.

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Nonlinear characterization of Ge_28Sb_12Se_60 bulk and waveguide devices

et al. 2015

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Single-mode Ge₂₈Sb₁₂Se₆₀ strip waveguides, fabricated with thermal evaporation and lift-off, were demonstrated at 1.03 µm. The linear and nonlinear optical properties of these waveguides were shown to be similar to bulk samples, with differences attributed to small variations in composition of ~4 atomic % or less. From z-scan measurements at 1.03 µm using circularly polarized, ~200 fs pulses at 374 kHz, Ge₂₈Sb₁₂Se₆₀ was found to have a nonlinear refractive index ~130 x fused silica and a two-photon absorption coefficient of 3.5 cm/GW. Given the large two-photon absorption coefficient, this material shows promise for optical limiting applications at 1 µm.

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Linear and Nonlinear Optical Properties of Ge-Sb-Se Waveguides at Telecom Wavelengths

Krogstad

Ahn

Park

et al. 2016

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Molly R. Krogstad

Thermal ghost imaging with averaged speckle patterns

High quality chalcogenide-silica hybrid wedge resonator

Nonlinear characterization of Ge_28Sb_12Se_60 bulk and waveguide devices

Linear and Nonlinear Optical Properties of Ge-Sb-Se Waveguides at Telecom Wavelengths

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