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Single-electron charge sensing in self-assembled quantum dots.


ABSTRACT: Measuring single-electron charge is one of the most fundamental quantum technologies. Charge sensing, which is an ingredient for the measurement of single spins or single photons, has been already developed for semiconductor gate-defined quantum dots, leading to intensive studies on the physics and the applications of single-electron charge, single-electron spin and photon-electron quantum interface. However, the technology has not yet been realized for self-assembled quantum dots despite their fascinating transport phenomena and outstanding optical functionalities. In this paper, we report charge sensing experiments in self-assembled quantum dots. We choose two adjacent dots, and fabricate source and drain electrodes on each dot, in which either dot works as a charge sensor for the other target dot. The sensor dot current significantly changes when the number of electrons in the target dot changes by one, demonstrating single-electron charge sensing. We have also demonstrated real-time detection of single-electron tunnelling events. This charge sensing technique will be an important step towards combining efficient electrical readout of single-electron with intriguing quantum transport physics or advanced optical and photonic technologies developed for self-assembled quantum dots.

SUBMITTER: Kiyama H 

PROVIDER: S-EPMC6143615 | biostudies-literature | 2018 Sep

REPOSITORIES: biostudies-literature

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Single-electron charge sensing in self-assembled quantum dots.

Kiyama Haruki H   Korsch Alexander A   Nagai Naomi N   Kanai Yasushi Y   Matsumoto Kazuhiko K   Hirakawa Kazuhiko K   Oiwa Akira A  

Scientific reports 20180918 1


Measuring single-electron charge is one of the most fundamental quantum technologies. Charge sensing, which is an ingredient for the measurement of single spins or single photons, has been already developed for semiconductor gate-defined quantum dots, leading to intensive studies on the physics and the applications of single-electron charge, single-electron spin and photon-electron quantum interface. However, the technology has not yet been realized for self-assembled quantum dots despite their  ...[more]

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