2017年第64回応用物理学会春季学術講演会

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13 半導体 » 13.7 ナノ構造・量子現象

[14p-E205-1~14] 13.7 ナノ構造・量子現象

3.11と13.7のコードシェアセッションあり

2017年3月14日(火) 13:45 〜 17:30 E205 (E205)

岡本 創(NTT)、井原 章之(京大)

13:45 〜 14:00

[14p-E205-1] Analysis on Optically-detected Electron Spin Resonance
in Single Self-Assembled Quantum Dots

〇(D)Fong CheeFai1,3、Chekhovich Evgeny4、Ulhaq Ata4、Skolnick Maurice4、Ota Yasutomo2,3、Iwamoto Satoshi1,2,3、Arakawa Yasuhiko1,2,3 (1.Inst. of Industrial Science、2.Nanoquine、3.Univ. of Tokyo、4.Univ. of Sheffield)

キーワード:Quantum Dot, Electron spin, Resonance fluorescence

An electron spin trapped in a self-assembled quantum dot (QD) can form a robust qubit. Electron spin resonance (ESR) induced by radiation of microwave field has been utilized for coherent control and detailed analysis of the QD spin.Optically detected ESR in single QDs has been reported Kroner at al. Phys. Rev. Lett. 100, 156803 (2008) in which the electron spin rotation is detected from the intensity of the resonance fluorescence signal. While this novel method provides an a faster alternative to electrical detection of electron spin, there were aspects of the results which were not fully understood in the previously-reported optical QD ESR models [3]. In this work, we attempt to perform a more comprehensive physical modeling of the optically-detected QD ESR by using a 4-level system expressing a negatively charge trion, X-. In our numerical simulations, we reproduced the basic features of the optically detected ESR, together with the observation of possible effects of optical and microwave co-excitation, giving an additional peak in the ESR spectra.