We have achieved the few-electron regime in InAs nanowire double quantum dots. Spin blockade is observed for the first two half-filled orbitals, where the transport cycle is interrupted by forbidden transitions between triplet and singlet states. Partial lifting of spin blockade is explained by spin-orbit and hyperfine mechanisms that enable triplet to singlet transitions. The measurements over a wide range of interdot coupling and tunneling rates to the leads are well reproduced by a simple transport model. This allows us to separate and quantify the contributions of the spin-orbit and hyperfine interactions
We study spin transport in the one- and two-electron regimes of parallel-coupled double quantum dots...
International audienceWe perform transport measurements on double quantum dots defined in Ge/Si core...
We demonstrate direct measurements of the spin-orbit interaction and Landé g factors in a semiconduc...
We have achieved the few-electron regime in InAs nanowire double quantum dots. Spin blockade is obse...
We have achieved the few-electron regime in InAs nanowire double quantum dots. Spin blockade is obse...
We have achieved the few-electron regime in InAs nanowire double quantum dots. Spin blockade is obse...
We have achieved the few-electron regime in InAs nanowire double quantum dots. Spin blockade is obse...
We have achieved the few-electron regime in InAs nanowire double quantum dots. Spin blockade is obse...
We have achieved the few-electron regime in InAs nanowire double quantum dots. Spin blockade is obse...
We have achieved the few-electron regime in InAs nanowire double quantum dots. Spin blockade is obse...
We have achieved the few-electron regime in InAs nanowire double quantum dots. Spin blockade is obse...
We demonstrate control of the electron number down to the last electron in tunable few-electron quan...
We use tunneling spectroscopy to study the evolution of few-electron spin states in parallel InAs na...
We report on experimental detection of the spin-orbit interaction field in an InAs nanowire double q...
We study spin transport in the one- and two-electron regimes of parallel-coupled double quantum dots...
We study spin transport in the one- and two-electron regimes of parallel-coupled double quantum dots...
International audienceWe perform transport measurements on double quantum dots defined in Ge/Si core...
We demonstrate direct measurements of the spin-orbit interaction and Landé g factors in a semiconduc...
We have achieved the few-electron regime in InAs nanowire double quantum dots. Spin blockade is obse...
We have achieved the few-electron regime in InAs nanowire double quantum dots. Spin blockade is obse...
We have achieved the few-electron regime in InAs nanowire double quantum dots. Spin blockade is obse...
We have achieved the few-electron regime in InAs nanowire double quantum dots. Spin blockade is obse...
We have achieved the few-electron regime in InAs nanowire double quantum dots. Spin blockade is obse...
We have achieved the few-electron regime in InAs nanowire double quantum dots. Spin blockade is obse...
We have achieved the few-electron regime in InAs nanowire double quantum dots. Spin blockade is obse...
We have achieved the few-electron regime in InAs nanowire double quantum dots. Spin blockade is obse...
We demonstrate control of the electron number down to the last electron in tunable few-electron quan...
We use tunneling spectroscopy to study the evolution of few-electron spin states in parallel InAs na...
We report on experimental detection of the spin-orbit interaction field in an InAs nanowire double q...
We study spin transport in the one- and two-electron regimes of parallel-coupled double quantum dots...
We study spin transport in the one- and two-electron regimes of parallel-coupled double quantum dots...
International audienceWe perform transport measurements on double quantum dots defined in Ge/Si core...
We demonstrate direct measurements of the spin-orbit interaction and Landé g factors in a semiconduc...