Matthias Brauns, Joost Ridderbos, Ang Li, Erik P. A. M. Bakkers, Wilfred G. van der Wiel, Floris A. Zwanenburg
Published 2016-07-30Version 1
We present measurements on gate-defined double quantum dots in Ge-Si core-shell nanowires, which we tune to a regime with visible shell filling in both dots. We observe a Pauli spin blockade and can assign the measured leakage current at low magnetic fields to spin-flip cotunneling, for which we measure a strong anisotropy related to an anisotropic g-factor. At higher magnetic fields we see signatures for leakage current caused by spin-orbit coupling between (1,1)-singlet and (2,0)-triplet states. Taking into account these anisotropic spin-flip mechanisms, we can choose the magnetic field direction with the longest spin lifetime for improved spin-orbit qubits.
Journal: Physical Review B, 94(2016), 041411(R)
Gate-based spin readout of hole quantum dots with site-dependent $g-$factors
Anisotropic Pauli Spin Blockade of Holes in a GaAs Double Quantum Dot
Strong g-Factor Anisotropy in Hole Quantum Dots Defined in Ge/Si Nanowires
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