典型文献
Brightening single-photon emitters by combining an ultrathin metallic antenna and a silicon quasi-BIC antenna
文献摘要:
Bright single-photon emitters (SPEs) are fundamental components in many quantum applications.However,it is difficult to simultaneously get large Purcell enhancements and quantum yields in metallic nanostructures because of the huge losses in the metallic nanostructures.Herein,we propose to combine an ultrathin metallic bowtie antenna with a silicon antenna above a metallic substrate to simultaneously get large Purcell enhancements,quantum yields,and collection efficiencies.As a result,the brightness of SPEs in the hybrid nanostructure is greatly increased.Due to the deep subwave-length field confinement (mode size < 10 nm) of surface plasmons in the ultrathin metallic film (thickness < 4 nm),the Purcell enhancement of the metallic bowtie antenna improves by more than 25 times when the metal thickness decreases from 20 nm to 2 nm.In the hybrid nanostructures by combining an ultrathin metallic bowtie antenna with a silicon antenna,the Purcell enhancement (Fp≈ 2.6 × 106) in the hybrid nanostructures is 63 times greater than those (≤ 4.1 × 104) in the previous metallic and hybrid nanostructures.Because of the reduced ratio of electromagnetic fields in the ultrathin metallic bowtie antenna when the high-index silicon antenna is under the quasi-BIC state,a high quantum yield (QY≈ 0.70) is obtained.Moreover,the good radiation directivity of the quasi-BIC (bound state in the continuum) mode of the silicon antenna and the reflection of the metallic substrate result in a high collection efficiency (CE≈ 0.71).Consequently,the overall enhancement factor of brightness of a SPE in the hybrid nanostructure is EF* ≈ Fp × QY × CE ≈ 1.3 × 106,which is 5.6 × 102 times greater than those (EF* ≤ 2.2 × 103) in the previous metallic and hybrid nanostructures.
文献关键词:
中图分类号:
作者姓名:
Shangtong Jia;Zhi Li;Jianjun Chen
作者机构:
State Key Laboratory for Mesoscopic Physics,School of Physics,Peking University,Beijing 100871,China;Department of Physics and Applied Optics Beijing Area Major Laboratory,Beijing Normal University,Beijing 100875,China;Collaborative Innovation Center of Extreme Optics,Shanxi University,Taiyuan 030006,China;Frontiers Science Center for Nano-optoelectronics & Collaborative Innovation Center of Quantum Matter,Peking University,Beijing 100871,China;Peking University Yangtze Delta Institute of Optoelectronics,Nantong 226010,China
文献出处:
引用格式:
[1]Shangtong Jia;Zhi Li;Jianjun Chen-.Brightening single-photon emitters by combining an ultrathin metallic antenna and a silicon quasi-BIC antenna)[J].中国物理B(英文版),2022(01):359-366
A类:
Brightening,subwave
B类:
single,photon,emitters,by,combining,ultrathin,metallic,antenna,silicon,quasi,BIC,SPEs,are,fundamental,components,many,quantum,applications,However,is,difficult,simultaneously,get,large,Purcell,enhancements,yields,nanostructures,because,huge,losses,Herein,propose,combine,bowtie,above,substrate,collection,efficiencies,result,brightness,hybrid,greatly,increased,Due,deep,length,confinement,mode,size,surface,plasmons,film,thickness,improves,more,than,times,when,decreases,from,In,Fp,greater,those,previous,Because,reduced,ratio,electromagnetic,fields,high,under,state,QY,obtained,Moreover,good,radiation,directivity,bound,continuum,reflection,efficiency,CE,Consequently,overall,EF,which
AB值:
0.373059
相似文献
机标中图分类号,由域田数据科技根据网络公开资料自动分析生成,仅供学习研究参考。
