Add to ORKGThe spin-orbit (SO) interaction couples electron spin and momentum via a relativistic, effective magnetic eld. While conveniently facilitating coherent spin manipulation in semiconductors, the SO interaction also inherently causes spin relaxation. A unique situation arises when the Rashba and Dresselhaus SO fields are matched, strongly protecting spins from relaxation, as recently demonstrated. Quantum computation and spintronics devices such as the paradigmatic spin transistor could vastly benet if such spin protection could be expanded from a single point into a broad range accessible with in-situ gate-control, making possible tunable SO rotations under protection from relaxation.Here, we demonstrate broad, independent control of all rele...
Single electron confined in a quantum dot is studied. A special emphasis is laid on the spin propert...
We discuss the transport properties of a quantum spin-Hall insulator with sizable Rashba spin-orbit ...
A theory of spin manipulation of quasi-two-dimensional (2D) electrons by a time-dependent gate volta...
In this chapter, we demonstrate, focusing on GaAs quantum wells (QWs), a full control of spin-orbit ...
There have been intense research efforts over the last years focused on understanding the Rashba spi...
The spin diffusion length is a key parameter to describe the transport properties of spin polarized ...
Time-resolved optical measurements in (110)-oriented GaAs/AlGaAs quantum wells show a tenfold increa...
We demonstrate the electrical control of the electron spin relaxation in GaAs/AlGaAs multiple quantu...
In this work, we show that a gate electric field, applied in the base of the field-effect devices, l...
Over the past decades there has been a growing interest in the study of the spin-orbit interaction (...
According to Noether's theorem, for every symmetry in nature there is a corresponding conservation l...
We demonstrate in theory that it is possible to all-electrically manipulate the RKKY interaction in ...
International audienceThe electrical control of the conduction band electron spin relaxation time is...
In recent years, the control of charge and spin in semiconductors has experienced outstanding progre...
Single electron confined in a quantum dot is studied. A special emphasis is laid on the spin propert...
We discuss the transport properties of a quantum spin-Hall insulator with sizable Rashba spin-orbit ...
A theory of spin manipulation of quasi-two-dimensional (2D) electrons by a time-dependent gate volta...
In this chapter, we demonstrate, focusing on GaAs quantum wells (QWs), a full control of spin-orbit ...
There have been intense research efforts over the last years focused on understanding the Rashba spi...
The spin diffusion length is a key parameter to describe the transport properties of spin polarized ...
Time-resolved optical measurements in (110)-oriented GaAs/AlGaAs quantum wells show a tenfold increa...
We demonstrate the electrical control of the electron spin relaxation in GaAs/AlGaAs multiple quantu...
In this work, we show that a gate electric field, applied in the base of the field-effect devices, l...
Over the past decades there has been a growing interest in the study of the spin-orbit interaction (...
According to Noether's theorem, for every symmetry in nature there is a corresponding conservation l...
We demonstrate in theory that it is possible to all-electrically manipulate the RKKY interaction in ...
International audienceThe electrical control of the conduction band electron spin relaxation time is...
In recent years, the control of charge and spin in semiconductors has experienced outstanding progre...
Single electron confined in a quantum dot is studied. A special emphasis is laid on the spin propert...
We discuss the transport properties of a quantum spin-Hall insulator with sizable Rashba spin-orbit ...
A theory of spin manipulation of quasi-two-dimensional (2D) electrons by a time-dependent gate volta...