Enhancing the upconversion luminescence of rare earth ions is crucial for their applications in the laser sources,fiber optic communications,color displays,biolabeling,and biomedical sensors.In this paper,we theoretically study the resonance-mediated(1+2)-three-photon absorption in Pr3+ions by a rectangle phase modulation.The results show that the resonance-mediated(1+2)-three-photon absorption can be effectively enhanced by properly designing the depth and width of the rectangle phase modulation,which can be attributed to the constructive interference between on-resonant and near-resonant three-photon excitation pathways.Further,the enhancement efficiency of resonance-mediated(1+2)-three-photon absorption can be affected by the pulse width(or spectral bandwidth)of femtosecond laser field,final state transition frequency,and absorption bandwidths.This research can provide a clear physical picture for understanding and controlling the multi-photon absorption in rare-earth ions,and also can provide theoretical guidance for improving the up-conversion luminescence.

Wenjing Cheng;Yuan Li;Hongzhen Qiao;Meng Wang;Shaoshuo Ma;Fangjie Shu;Chuanqi Xie;Guo Liang

Henan Province Engineering Research Center of Microcavity and Photoelectric Intelligent Sensing,School of Electronics and Electrical Engineering,Shangqiu Normal University,Shangqiu 476000,China;Department of Ophthalmology,First People's Hospital of Shangqiu,Shangqiu 476000,China;The Key Laboratory of Weak Light Nonlinear Photonics Nankai University of Ministry of Education,Tianjin 300457,China

中国物理B（英文版）

[1]Wenjing Cheng;Yuan Li;Hongzhen Qiao;Meng Wang;Shaoshuo Ma;Fangjie Shu;Chuanqi Xie;Guo Liang-.Simulating the resonance-mediated(1+2)-three-photon absorption enhancement in Pr3+ions by a rectangle phase modulation)[J].中国物理B（英文版）,2022(06):321-326

Pr3+ions,biolabeling

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