Controlling exciton spontaneous emission of quantum dots by Au nanoparticles br
Author(s): Li, YH (Li Yuan-He); Zhuo, ZY (Zhuo Zhi-Yao); Wang, J (Wang Jian); Huang, JH (Huang Jun-Hui); Li, SL (Li Shu-Lun); Ni, HQ (Ni Hai-Qiao); Niu, ZC (Niu Zhi-Chuan); Dou, XM (Dou Xiu-Ming); Sun, BQ (Sun Bao-Quan)
Source: ACTA PHYSICA SINICA Volume: 71 Issue: 6 Article Number: 067804 DOI: 10.7498/aps.71.20211863 Published: MAR 20 2022
Abstract: As an ideal single-photon source, quantum dots (QDs) can play a unique role in the field of quantum information. Controlling QD exciton spontaneous emission can be achieved by anti-phase coupling between QDexciton dipole field and Au dipole field after QD film has been transferred onto the Si substrate covered by Au nanoparticles. In experiment, the studied InAs/GaAs QDs are grown by molecular beam epitaxy (MBE) on a(001) semi-insulation substrate. The films containing QDs with different GaAs thickness values are separatedfrom the GaAs substrate by etching away the AlAs sacrificial layer and transferring the QD film to the siliconwafer covered by Au nanoparticles with a diameter of 50 nm. The distance D (thickness of GaAs) from thesurface of the Au nanoparticles to the QD layer is 10, 15, 19, 25, and 35 nm, separately. A 640-nm pulsedsemiconductor laser with a 40-ps pulse length is used to excite the QD samples for measuring QD excitonphotoluminescence and time-resolved photoluminescence spectra at 5 K. It is found that when the distance D is15-35 nm the spontaneous emission rate of exciton is suppressed. And when D is close to 19 nm, the QDspontaneous emission rate decreases to , which is consistent with the theoretical calculations. The physical mechanism of long-lived exciton luminescence observed in experiment lies in the fact that Au nanoparticlesscatter the light field of the exciton radiation in the QD wetting layer, and the phase of the scattered field is opposite to the phase of the exciton radiation field. Therefore, the destructive interference between the exciton radiation field and scattering field of Au nanoparticles results in long-lived exciton emission observed in experiment
Accession Number: WOS:000778434300003
ISSN: 1000-3290
Full Text: https://wulixb.iphy.ac.cn/article/doi/10.7498/aps.71.20211863