Matthew Butcher scite author profile

We report on the quantum confinement in SrTiO 3 (STO) quantum wells (QWs) grown by molecular beam epitaxy. The QW structure consists of LaAlO 3 (LAO) and STO layers grown on LAO substrate. Structures with different QW thicknesses ranging from two to ten unit cells were grown and characterized. Optical properties (complex dielectric function) were measured by spectroscopic ellipsometry in the range of 1.0 eV-6.0 eV at room temperature. We observed that the absorption edge was blue-shifted by approximately 0.39 eV as the STO quantum well thickness was reduced to two unit cells. This demonstrates that the energy level of the first sub-band can be controlled by the QW thickness in a complex oxide material. V

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Efficient Monte Carlo simulation of a dissipative Ising chain

Butcher

Pixley

Nevidomskyy

2018

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We numerically study the dissipative transverse field Ising model in a bosonic bath with Ohmic spectral density. We present Monte Carlo techniques for studying this model in previously inaccessible regimes of strong frustration. We then consider a well-studied limit of this model, infinite-separation, and further show that even for finite separations there is no magnetic ordering associated with the case of an infinite bath cutoff frequency. We discuss future applications for the Monte Carlo method.

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Anisotropic Melting of Frustrated Ising Antiferromagnets

2023

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Long-range order and quantum criticality in a dissipative spin chain

2022

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Matthew Butcher

The feasibility of the sustainable energy supply from bio wastes for a small scale brewery – A case study

Quantum confinement in transition metal oxide quantum wells

Efficient Monte Carlo simulation of a dissipative Ising chain

Anisotropic Melting of Frustrated Ising Antiferromagnets

Long-range order and quantum criticality in a dissipative spin chain

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