A tensor network algorithm computes momentum-resolved spectral functions for large non-periodic super-moiré systems by mapping tight-binding problems to solvable quantum many-body simulations using kernel polynomial methods and quantum Fourier transforms.
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Pressure-tuned exciton Rydberg series in WSe2/hBN heterostructures enable direct measurement of the dielectric constant of pressurized hBN via a model of interlayer distance changes.
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Tensor network approach to momentum-resolved spectroscopy in non-periodic super-moir\'e systems
A tensor network algorithm computes momentum-resolved spectral functions for large non-periodic super-moiré systems by mapping tight-binding problems to solvable quantum many-body simulations using kernel polynomial methods and quantum Fourier transforms.
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Probing Dielectric Screening in van der Waals Heterostructures via Pressure-Tuned Exciton Rydberg Series
Pressure-tuned exciton Rydberg series in WSe2/hBN heterostructures enable direct measurement of the dielectric constant of pressurized hBN via a model of interlayer distance changes.