Shiva Davari scite author profile

Strained trigonal Te has been predicted to host Weyl nodes supported by a nonsymmorphic chiral symmetry. Using low-pressure physical vapor deposition, we systematically explored the growth of trigonal Te nanowires with naturally occurring strain caused by curvature of the wires. Raman spectra and high mobility electronic transport attest to the highly crystalline nature of the wires. Comparison of Raman spectra for both straight and curved nanowires indicates a breathing mode that is significantly broader and shifted in frequency for the curved wires. Strain induced by curvature during growth therefore may provide a simple pathway to investigate topological phases in trigonal Te.

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Experiment-simulation comparison of luminescence properties of GaN/InGaN/GaN double graded structures

Sarollahi

Ghosh

Aldawsari

et al. 2021

Journal of Luminescence

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Growth and Strain Engineering of Trigonal Te for Topological Quantum Phases in Non-Symmorphic Chiral Crystals

Basnet

Doha

Hironaka

et al. 2019

Preprint

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Shiva Davari

Gate-Defined Accumulation-Mode Quantum Dots in Monolayer and Bilayer WSe2

Growth and Strain Engineering of Trigonal Te for Topological Quantum Phases in Non-Symmorphic Chiral Crystals

Experiment-simulation comparison of luminescence properties of GaN/InGaN/GaN double graded structures

Growth and Strain Engineering of Trigonal Te for Topological Quantum Phases in Non-Symmorphic Chiral Crystals

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