Gate-controlled electromechanical backaction induced by a quantum dot

نویسندگان

  • Yuma Okazaki
  • Imran Mahboob
  • Koji Onomitsu
  • Satoshi Sasaki
  • Hiroshi Yamaguchi
چکیده

Semiconductor-based quantum structures integrated into mechanical resonators have emerged as a unique platform for generating entanglement between macroscopic phononic and mesocopic electronic degrees of freedom. A key challenge to realizing this is the ability to create and control the coupling between two vastly dissimilar systems. Here, such coupling is demonstrated in a hybrid device composed of a gate-defined quantum dot integrated into a piezoelectricity-based mechanical resonator enabling milli-Kelvin phonon states to be detected via charge fluctuations in the quantum dot. Conversely, the single electron transport in the quantum dot can induce a backaction onto the mechanics where appropriate bias of the quantum dot can enable damping and even current-driven amplification of the mechanical motion. Such electron transport induced control of the mechanical resonator dynamics paves the way towards a new class of hybrid semiconductor devices including a current injected phonon laser and an on-demand single phonon emitter.

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عنوان ژورنال:

دوره 7  شماره 

صفحات  -

تاریخ انتشار 2016