Mark C. Phillips scite author profile

We report an experimental demonstration and theoretical analysis of electromagnetically induced transparency in a GaAs quantum well, in which the absorption of an exciton resonance is reduced by more than twentyfold. The destructive quantum interference in this scheme is set up by a control pulse that couples to a resonance of biexcitons. These studies illustrate that many-particle interactions, which are inherent in semiconductors and are often detrimental to quantum coherences, can also be harnessed to manipulate these coherences.

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Optical spectroscopy of laser-produced plasmas for standoff isotopic analysis

Harilal

Brumfield

LaHaye

et al. 2018

Applied Physics Reviews

174

102

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Shock Wave Mediated Plume Chemistry for Molecular Formation in Laser Ablation Plasmas

et al. 2016

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Although it is relatively straightforward to measure the ionic, atomic, molecular, and particle emission features from laser ablation plumes, the associated kinetic and thermodynamic development leading to molecular and nanocluster formation remain one of the most important topics of analytical chemistry and material science. Very little is known, for instance, about the evolutionary paths of molecular and nanocluster formation and its relation to laser plume hydrodynamics. This is, to a large extent; due to the complexity of numerous physical processes that coexist in a transient laser-plasma system. Here, we report the formation mechanisms of molecules during complex interactions of a laser-produced plasma plume expanding from a high purity aluminum metal target into ambient air. It is found that the plume hydrodynamics plays a great role in redefining the plasma thermodynamics and molecular formation. Early in the plasma expansion, the generated shock wave at the plume edge acts as a barrier for the combustion process and molecular formation is prevalent after the shock wave collapse. The temporally and spatially resolved contour mapping of atoms and molecules in laser ablation plumes highlight the formation routes and persistence of species in the plasma and their relation to plume hydrodynamics.

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Electromagnetically induced transparency due to intervalence band coherence in a GaAs quantum well

2003

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Single-mode low-loss chalcogenide glass waveguides for the mid-infrared

et al. 2006

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We demonstrate the design, fabrication, and characterization of single-mode low-loss waveguides for mid-infrared (MIR) wavelengths. Planar waveguide structures were fabricated from multilayer thin films of arsenic-based chalcogenide glasses followed by the creation of channel waveguides by using the photodarkening effect. Propagation losses as low as 0.5 dB/cm were measured for a quantum cascade laser end-fire coupled into the waveguides. This is a first step toward the design and fabrication of integrated optical components for MIR applications.

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Mark C. Phillips

Electromagnetically Induced Transparency in Semiconductors via Biexciton Coherence

Optical spectroscopy of laser-produced plasmas for standoff isotopic analysis

Shock Wave Mediated Plume Chemistry for Molecular Formation in Laser Ablation Plasmas

Electromagnetically induced transparency due to intervalence band coherence in a GaAs quantum well

Single-mode low-loss chalcogenide glass waveguides for the mid-infrared

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