Enhancement of Er luminescence from bridge-type photonic crystal nanocavities with Er, O-co-doped GaAs

IF 1.1 Q4 OPTICS Optics continuum Pub Date : 2023-10-03 DOI:10.1364/optcon.501666
Zhidong Fang, Jun Tatebayashi, Ryohei Homi, Masayuki Ogawa, Hirotake Kajii, Masahiko Kondow, Kyoko Kitamura, Brandon Mitchell, Shuhei Ichikawa, Yasufumi Fujiwara
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Abstract

A bridge-type photonic crystal (PhC) nanocavity based on Er,O-codoped GaAs is employed to realize enhancement of Er luminescence. By adjusting the structural design and measurement temperature, the cavity mode's wavelength can be coupled to Er luminescence. The peak emission intensity from an Er-2O defect center was enhanced 7.3 times at 40 nW pump power and 77 K. The experimental Q-factor is estimated to be over 1.2 × 10 4 , and the luminescence intensity shows superlinearity with excitation power, suggesting Er luminescence amplification. This result would pave the way towards the realization of highly efficient single-photon emitters based on rare-earth elements.
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铒、氧共掺砷化镓增强电桥型光子晶体纳米腔中的铒发光
利用铒、氧共掺砷化镓的电桥型光子晶体(PhC)纳米腔实现了铒发光的增强。通过调整结构设计和测量温度,可以将腔模式的波长与铒发光耦合。当泵浦功率为40 nW,温度为77 K时,Er-2O缺陷中心的峰值发射强度提高了7.3倍。实验估计q因子大于1.2 × 10 4,发光强度与激发功率呈超线性关系,存在Er发光放大现象。这一结果将为实现基于稀土元素的高效单光子发射器铺平道路。
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来源期刊
Optics continuum
Optics continuum
CiteScore
3.50
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