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A first-principles Quantum Monte Carlo study of two-dimensional (2D) GaSe
Daniel Wines
,
Kayahan Saritas
, Can Ataca
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Article
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peer-review
34
Scopus citations
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Physics
Monte Carlo
100%
First Principle
100%
Diffusion Monte Carlo
100%
Transition Metal
75%
Chalcogenides
75%
Density Functional Theory
75%
Bethe-Salpeter Equation
50%
Excitation
50%
Binding Energy
50%
Exciton
50%
Monte Carlo Method
50%
Ground State
50%
Lattice Parameter
50%
Quasiparticle
25%
Transition Metal Dichalcogenide
25%
Local Density Approximation
25%
Graphene
25%
Energy Gaps (Solid State)
25%
Energy Levels
25%
Perturbation Theory
25%
Water Splitting
25%
Chemistry
First Principle
100%
Diffusion Monte Carlo
100%
Density Functional Theory
75%
Post-transition Metals
75%
Monolayers
75%
Ground State
50%
Excited State
50%
Lattice Parameter
50%
Monte Carlo Method
50%
Binding Energy
50%
Exciton
50%
electronics
50%
Lattice Constant
50%
Electronic State
25%
Band Gap
25%
Quasiparticle
25%
Charge Density
25%
Local-Density Approximation
25%
Energy State
25%
Cohesive Energy
25%
Many-Body Perturbation Theory
25%
Graphene
25%
Transition Metal
25%
Material Science
Density
100%
Monolayers
60%
Transition Metal Chalcogenides
60%
Post-Transition Metal
60%
Lattice Constant
40%
Graphene
20%
Transition Metal Dichalcogenide
20%
Water Splitting
20%
Energy Levels
20%