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Paper detail

Back-action Induced Non-equilibrium Effect in Electron Charge Counting Statistics

We report our study of the real-time charge counting statistics measured by a quantum point contact (QPC) coupled to a single quantum dot (QD) under different back-action strength. By tuning the QD-QPC coupling or QPC bias, we controlled the QPC back-action which drives the QD electrons out of thermal equilibrium. The random telegraph signal (RTS) statistics showed strong and tunable non-thermal-equilibrium saturation effect, which can be quantitatively characterized as a back-action induced tunneling out rate. We found that the QD-QPC coupling and QPC bias voltage played different roles on the back-action strength and cut-off energy.

preprint2011arXivOpen access
Haiou LiMing XiaoGang CaoCheng ZhouRunan ShangTao TuGuangcan GuoGuoping GuoHongWen Jiang
cond-mat.mes-hall
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Haiou LiMing XiaoGang CaoCheng ZhouRunan ShangTao TuGuangcan GuoGuoping GuoHongWen Jiang

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