A spin-to-charge current conversion is measured, which is attributed to the inverse Rashba-Edelstein effect at the Cu/Bi interface. The spin-current-induced charge current is found to change direction with increasing temperature. A theoretical analysis relates this behavior to the complex spin ...
Reversal of spin-polarization near the Fermi level of the Rashba semiconductor BiTeCl Article Open access 02 March 2023 Introduction Spintronics aims to use the spin degrees of freedom for information technologies1,2,3. The injection of spin-polarized carriers into two-dimensional quantum materials...
In that context, the spin Rashba effect locks electronic spins with momentum to produce large spin galvanic effects. It has recently been argued that these spin-based effects could in fact be spin–orbit coupling consequences of a potentially larger orbital effect. Here we observe spin-to-charge...
To get efficient approaches to the spin-to-charge conversion is crucially important for spintronics which,as is widely believed,might lead to a new generation of information technology.Fortunately,V.M.Edelstein has proposed a new effect for twodimensional systems with Rashba spin-orbit coupling which...
To get efficient approaches to the spin-to-charge conversion is crucially important for spintronics which,as is widely believed,might lead to a new generation of information technology.Fortunately,V.M.Edelstein has proposed a new effect for twodimensional systems with Rashba spin-orbit coupling whi...
Quantitative investigation of the inverse Rashba-Edelstein effect in Bi/Ag and Ag/Bi on YIGdoi:10.1063/1.4976691Masashi ShiraishiMasasyuki MatsushimaRyo OhshimaRyohei KumamotoSergey DushenkoTeruya ShinjoYuichiro Ando