Add to ORKGThe use of localized Gaussian basis functions for large scale first principles density functional calculations with periodic boundary conditions (PBC) in 2 dimensions and 3 dimensions has been made possible by using a dual space approach. This new method is applied to the study of electronic properties of II–VI (II=Zn, Cd, Hg; VI=S, Se, Te, Po) and III–V (III=Al, Ga; V=As, N) semiconductors. Valence band offsets of heterojunctions are calculated including both bulk contributions and interfacial contributions. The results agree very well with available experimental data. The p(2 × 1) cation terminated surface reconstructions of CdTe and HgTe (100) are calculated using the local density approximation (LDA) with two-dimensional PBC and also us...
Early transition metal dichalcogenides (TMDC), characterized by their quasi-two-dimensional layered ...
The focus of this dissertation is the determination of the electronic structure and trans-port prope...
This chapter introduces the Hubbard model and its applicability as a corrective tool for accurate mo...
We describe the implementation of a separable pseudopotential into the dual space approach for ab in...
It has been established experimentally that Bi_2Te_3 and Bi_2Se_3 are topological insulators, with z...
We report results from a fast, efficient, and first-principles full-potential Nth-order muffin-tin o...
When certain materials in their bulk phase are reduced to a two-dimensional (2D) form, their electro...
Optimizing density-functional theory (DFT) and G0W0 calculations present coupled problems as orbital...
There are two primary ways that atomic level modeling data is used: materials prediction and underst...
Simulating solids with quantum chemistry methods and Gaussian-type orbitals (GTOs) has been gaining ...
We use fully self-consistent GW calculations on diamond and silicon carbide to reparametrize the Hey...
In the present thesis, we have employed first principles electronic structure calculations based on ...
We describe an all-electron G₀W₀ implementation for periodic systems with k-point sampling implement...
The thesis is organized as follows: Oh. 1 is a brief introduction to the field of the physics of se...
When density functional theory is used to describe the electronic structure of periodic systems, the...
Early transition metal dichalcogenides (TMDC), characterized by their quasi-two-dimensional layered ...
The focus of this dissertation is the determination of the electronic structure and trans-port prope...
This chapter introduces the Hubbard model and its applicability as a corrective tool for accurate mo...
We describe the implementation of a separable pseudopotential into the dual space approach for ab in...
It has been established experimentally that Bi_2Te_3 and Bi_2Se_3 are topological insulators, with z...
We report results from a fast, efficient, and first-principles full-potential Nth-order muffin-tin o...
When certain materials in their bulk phase are reduced to a two-dimensional (2D) form, their electro...
Optimizing density-functional theory (DFT) and G0W0 calculations present coupled problems as orbital...
There are two primary ways that atomic level modeling data is used: materials prediction and underst...
Simulating solids with quantum chemistry methods and Gaussian-type orbitals (GTOs) has been gaining ...
We use fully self-consistent GW calculations on diamond and silicon carbide to reparametrize the Hey...
In the present thesis, we have employed first principles electronic structure calculations based on ...
We describe an all-electron G₀W₀ implementation for periodic systems with k-point sampling implement...
The thesis is organized as follows: Oh. 1 is a brief introduction to the field of the physics of se...
When density functional theory is used to describe the electronic structure of periodic systems, the...
Early transition metal dichalcogenides (TMDC), characterized by their quasi-two-dimensional layered ...
The focus of this dissertation is the determination of the electronic structure and trans-port prope...
This chapter introduces the Hubbard model and its applicability as a corrective tool for accurate mo...