Add to ORKGTwo-dimensional materials with Rashba split bands near the Fermi level are key to developing upcoming next-generation spintronics. They enable generating, detecting, and manipulating spin currents without an external magnetic field. Here, we propose BiAs as a novel layered semiconductor with large Rashba splitting in bulk and monolayer forms. Using first-principles calculations, we determined the lowest energy structure of BiAs and its basic electronic properties. Bulk BiAs has a layered crystal structure with two atoms in a rhombohedral primitive cell, similar to the parent Bi and As elemental phases. It is a semiconductor with a narrow and indirect band gap. The spin-orbit coupling leads to Rashba-Dresselhaus spin splitting and characteri...
In this paper, we demonstrate why cubic Rashba spin splitting is observed within inverted doped st...
We use the Effective Bond Orbital Model (EBOM) method to examine the spin splitting due to the Rashb...
One of the most promising platforms for spintronics and topological quantum computation is the two-d...
Interlocking between spin and the crystal momentum of electrons resulting from the spin-orbit coupli...
International audienceIt was recently shown that BiTeI, a semiconductor with polar crystal structure...
We report on quantitative comparison between the electric dipole energy and the Rashba band splittin...
Recent studies on the Rashba effect on surfaces are reviewed. The Rashba effect refers to the k-depe...
One of the most promising platforms for spintronics and topological quantum computation is the two-d...
Relativistic effects are increasingly seen as key ingredients in the burgeoning field of spintronics...
The miniaturization of transistors and the high density of integrated circuits makes conventional tr...
The Rashba effect, discovered in 1959, continues to supply fertile ground for fundamental research a...
Topological crystalline insulators such as Pb1 xSnxTe have attracted great interest due to the wide ...
We develop a theoretical model to calculate the quantum efficiency (QE) of photoelectron emission fr...
In this review article we describe spin-dependent transport in materials with spin–orbit interaction...
Rashba spin splitting is a two-dimensional (2D) relativistic effect closely related to spintronics. ...
In this paper, we demonstrate why cubic Rashba spin splitting is observed within inverted doped st...
We use the Effective Bond Orbital Model (EBOM) method to examine the spin splitting due to the Rashb...
One of the most promising platforms for spintronics and topological quantum computation is the two-d...
Interlocking between spin and the crystal momentum of electrons resulting from the spin-orbit coupli...
International audienceIt was recently shown that BiTeI, a semiconductor with polar crystal structure...
We report on quantitative comparison between the electric dipole energy and the Rashba band splittin...
Recent studies on the Rashba effect on surfaces are reviewed. The Rashba effect refers to the k-depe...
One of the most promising platforms for spintronics and topological quantum computation is the two-d...
Relativistic effects are increasingly seen as key ingredients in the burgeoning field of spintronics...
The miniaturization of transistors and the high density of integrated circuits makes conventional tr...
The Rashba effect, discovered in 1959, continues to supply fertile ground for fundamental research a...
Topological crystalline insulators such as Pb1 xSnxTe have attracted great interest due to the wide ...
We develop a theoretical model to calculate the quantum efficiency (QE) of photoelectron emission fr...
In this review article we describe spin-dependent transport in materials with spin–orbit interaction...
Rashba spin splitting is a two-dimensional (2D) relativistic effect closely related to spintronics. ...
In this paper, we demonstrate why cubic Rashba spin splitting is observed within inverted doped st...
We use the Effective Bond Orbital Model (EBOM) method to examine the spin splitting due to the Rashb...
One of the most promising platforms for spintronics and topological quantum computation is the two-d...