NV spin defects enable in-situ temperature imaging in diamond nanostructures, revealing width-dependent reduction in thermal conductivity consistent with non-diffusive phonon transport modeled by Boltzmann and viscous heat equations.
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Doping and layer configuration in TMD heterobilayers allow control over both the size and the in-plane direction of maximum lattice thermal conductivity.
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Imaging heat transport in suspended diamond nanostructures with integrated spin defect thermometers
NV spin defects enable in-situ temperature imaging in diamond nanostructures, revealing width-dependent reduction in thermal conductivity consistent with non-diffusive phonon transport modeled by Boltzmann and viscous heat equations.
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Tuning magnitude and direction of lattice thermal conductivity in transition metal dichalcogenide heterobilayers
Doping and layer configuration in TMD heterobilayers allow control over both the size and the in-plane direction of maximum lattice thermal conductivity.