Computational design of quantum defects in two-dimensional materials

Y Ping, TJ Smart - Nature Computational Science, 2021 - nature.com
Missing atoms or atom substitutions (point defects) in crystal lattices in two-dimensional (2D)
materials are potential hosts for emerging quantum technologies, such as single-photon …
被引用次数:30 相关文章
[PDF] nsf.gov

[PDF][PDF] Computational design of quantum defects in two-dimensional materials

Y Ping, TJ Smart - Nature Computational Science, 2021 - par.nsf.gov
Missing atoms or atom substitutions (point defects) in crystal lattices in two-dimensional (2D)
materials are potential hosts for emerging quantum technologies, such as single-photon …

Computational design of quantum defects in two-dimensional materials

Y Ping, TJ Smart - Nature Computational Science, 2021 - osti.gov
We report missing atoms or atom substitutions (point defects) in crystal lattices in two-
dimensional (2D) materials are potential hosts for emerging quantum technologies, such as …

Computational design of quantum defects in two-dimensional materials.

Y Ping, TJ Smart - Nature Computational Science, 2021 - europepmc.org
Missing atoms or atom substitutions (point defects) in crystal lattices in two-dimensional (2D)
materials are potential hosts for emerging quantum technologies, such as single-photon …

Computational design of quantum defects in two-dimensional materials

Y Ping, TJ Smart - Nature computational science, 2021 - pubmed.ncbi.nlm.nih.gov
Missing atoms or atom substitutions (point defects) in crystal lattices in two-dimensional (2D)
materials are potential hosts for emerging quantum technologies, such as single-photon …