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Paper detail

Bipolar spin blockade and coherent state superpositions in a triple quantum dot

Spin qubits based on interacting spins in double quantum dots have been successfully demonstrated. Readout of the qubit state involves a conversion of spin to charge information, universally achieved by taking advantage of a spin blockade phenomenon resulting from Pauli's exclusion principle. The archetypal spin blockade transport signature in double quantum dots takes the form of a rectified current. Currently more complex spin qubit circuits including triple quantum dots are being developed. Here we show both experimentally and theoretically (a) that in a linear triple quantum dot circuit, the spin blockade becomes bipolar with current strongly suppressed in both bias directions and (b) that a new quantum coherent mechanism becomes relevant. Within this mechanism charge is transferred non-intuitively via coherent states from one end of the linear triple dot circuit to the other without involving the centre site. Our results have implications in future complex nano-spintronic circuits.

preprint2013arXivOpen access
M. BuslG. GrangerL. GaudreauR. SánchezA. KamM. Pioro-LadrièreS. A. StudenikinP. ZawadzkiZ. R. WasilewskiA. S. SachrajdaG. Platero
cond-mat.mes-hall
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M. BuslG. GrangerL. GaudreauR. SánchezA. KamM. Pioro-LadrièreS. A. StudenikinP. ZawadzkiZ. R. WasilewskiA. S. SachrajdaG. Platero

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