Add to ORKGWe show that the carrier recombination rate of noncentrosymmetric materials can be strongly modified by spin-orbit coupling. Our proposed mechanism involves the separation of conduction and valence bands into their respective spin components, which changes the transition dipole moments between them. The change in the carrier recombination can be either positive or negative in sign, or vary depending on the location of carriers in the Brillouin zone. We have performed a large scale DFT screening study to identify candidate materials that display this effect. We have selected three materials, Pb4SeBr6, ReTe3Br5, and CsCu(BiS2)2, which span the range of behaviors, and discuss their electronic band structure in greater detail. We find transitio...
Graphene stands out for its high mobility and weak spin-orbit coupling (SOC) offering efficient tran...
We observe a giant spin-orbit splitting in the bulk and surface states of the noncentrosymmetric sem...
In type II semiconductor heterostructures, one can reduce the electron-hole overlap, without changin...
Spintronics, or spin-based electronics, is a current field of study that seeks to enhance the operat...
Narrow-gap semiconductors with strong spin-orbit coupling such as bismuth tellurohalides have become...
The momentum-dependent spin splitting in the conduction band couples orbital motion to spin and enab...
Despite residing in an energetically and structurally disordered landscape, the spin degree of freed...
Despite residing in an energetically and structurally disordered landscape, the spin degree of freed...
Strong interaction between the spin and orbital angular momentum of electrons in a material can give...
Persistent spin texture (PST) is the property of some materials to maintain a uniform spin configura...
The spin-orbit interaction can cause a nonvanishing density of states (DOS) within the minority-spin...
Recent focus on two dimensional materials and spin-coupled phenomena holds future potential for fast...
The Dresselhaus and Rashba effects are well-known phenomena in solid-state physics, in which spin-or...
The development of new technology for computing and renewable energy sources requires new insight in...
Spin-orbit coupling (SOC) is a relativistic interaction between the electronic spin and orbital degr...
Graphene stands out for its high mobility and weak spin-orbit coupling (SOC) offering efficient tran...
We observe a giant spin-orbit splitting in the bulk and surface states of the noncentrosymmetric sem...
In type II semiconductor heterostructures, one can reduce the electron-hole overlap, without changin...
Spintronics, or spin-based electronics, is a current field of study that seeks to enhance the operat...
Narrow-gap semiconductors with strong spin-orbit coupling such as bismuth tellurohalides have become...
The momentum-dependent spin splitting in the conduction band couples orbital motion to spin and enab...
Despite residing in an energetically and structurally disordered landscape, the spin degree of freed...
Despite residing in an energetically and structurally disordered landscape, the spin degree of freed...
Strong interaction between the spin and orbital angular momentum of electrons in a material can give...
Persistent spin texture (PST) is the property of some materials to maintain a uniform spin configura...
The spin-orbit interaction can cause a nonvanishing density of states (DOS) within the minority-spin...
Recent focus on two dimensional materials and spin-coupled phenomena holds future potential for fast...
The Dresselhaus and Rashba effects are well-known phenomena in solid-state physics, in which spin-or...
The development of new technology for computing and renewable energy sources requires new insight in...
Spin-orbit coupling (SOC) is a relativistic interaction between the electronic spin and orbital degr...
Graphene stands out for its high mobility and weak spin-orbit coupling (SOC) offering efficient tran...
We observe a giant spin-orbit splitting in the bulk and surface states of the noncentrosymmetric sem...
In type II semiconductor heterostructures, one can reduce the electron-hole overlap, without changin...