Fermi surface determination from wavevector quantization in LaSrCuO films

We have observed the wavevector quantization in LaSrCuO films thinner than 12 unit cells grown on SrTiO3 substrates. Low energy dispersions were determined in situ for different photon energies by angle resolved photoemission spectroscopy. From the wavevector quantization, we extract three dimensional dispersions within a tight-binding model and obtain the Fermi surface topology, without resorting to the nearly free-electron approximation. Such method can be extended to similar confined electron nanostructures.

Fermi surface determination from wavevector quantization in LaSrCuO films

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Electronic structure and lattice dynamics of 1T-VSe2:Origin of the three-dimensional charge density wave

Multi-machine benchmark of the self-consistent 1D scrape-off layer model DIV1D from stagnation point to target with SOLPS-ITER

Towards Scalable Electronics: Synthetic 2D Materials for Large-Area 2D Circuit Integration

Electronic structure and lattice dynamics of 1T-VSe2:Origin of the three-dimensional charge density wave

Multi-machine benchmark of the self-consistent 1D scrape-off layer model DIV1D from stagnation point to target with SOLPS-ITER

Towards Scalable Electronics: Synthetic 2D Materials for Large-Area 2D Circuit Integration