Chris Sturm scite author profile

The Raman spectrum and particularly the Raman scattering intensities of monoclinic β-Ga2O3 are investigated by experiment and theory. The low symmetry of β-Ga2O3 results in a complex dependence of the Raman intensity for the individual phonon modes on the scattering geometry which is additionally affected by birefringence. We measured the Raman spectra in dependence on the polarization direction for backscattering on three crystallographic planes of β-Ga2O3 and modelled these dependencies using a modified Raman tensor formalism which takes birefringence into account. The spectral position of all 15 Raman active phonon modes and the Raman tensor elements of 13 modes were determined and are compared to results from ab-initio calculations.

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A Practical, Self‐Catalytic, Atomic Layer Deposition of Silicon Dioxide

Bachmann¹,

Zierold²,

Chong³

et al. 2008

Angew Chem Int Ed

137

130

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Molecular self‐attack: According to mythology, a scorpion may sting itself to death; similarly, 3‐aminopropyltriethoxysilane catalyzes its own hydrolysis in the atomic layer deposition (ALD) of SiO2 thin films and nanostructures. Between 120 and 200 °C, the growth rate is constant at 0.06 nm per ALD cycle. The SiO2 films are chemically and optically pure. SiO2 nanotubes of aspect ratio 500 exhibit smooth walls of accurately controlled thickness.

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All-optical phase modulation in a cavity-polariton Mach–Zehnder interferometer

et al. 2014

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Quantum fluids based on light is a highly developing research field, since they provide a nonlinear platform for developing optical functionalities and quantum simulators. An important issue in this context is the ability to coherently control the properties of the fluid. Here we propose an all-optical approach for controlling the phase of a flow of cavity-polaritons, making use of their strong interactions with localized excitons. Here we illustrate the potential of this method by implementing a compact exciton–polariton interferometer, which output intensity and polarization can be optically controlled. This interferometer is cascadable with already reported polariton devices and is promising for future polaritonic quantum optic experiments. Complex phase patterns could be also engineered using this optical method, providing a key tool to build photonic artificial gauge fields.

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Chris Sturm

Whispering gallery mode lasing in zinc oxide microwires

Raman tensor elements of β-Ga2O3

A Practical, Self‐Catalytic, Atomic Layer Deposition of Silicon Dioxide

All-optical phase modulation in a cavity-polariton Mach–Zehnder interferometer

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