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    Journals >Laser & Optoelectronics Progress >Volume 58 >Issue 17 >Page 1702001 > Article
    • Laser & Optoelectronics Progress
    • Vol. 58, Issue 17, 1702001 (2021)
    Fifth-Order Nonlinear Effects by Electromagnetical Induced Enhancement
    Shudi Mei, Xinyi Zhang, Guoguo Xin, and Yingjie Du*
    Author Affiliations
  • School of Physics, Northwest University, Xi'an , Shaanxi 710127, China
    • show less
    DOI: 10.3788/LOP202158.1702001 Cite this Article Set citation alerts
    Shudi Mei, Xinyi Zhang, Guoguo Xin, Yingjie Du. Fifth-Order Nonlinear Effects by Electromagnetical Induced Enhancement[J]. Laser & Optoelectronics Progress, 2021, 58(17): 1702001 Copy Citation Text show less
    Model of interaction between light field and Λ-type three-level atomic system
    Fig. 1. Model of interaction between light field and Λ-type three-level atomic system
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    Relationship between population number and detuning amounts of probe light under different conditions. (a) Ω1=Ω2; (b) Ω1=0.1Ω2
    Fig. 2. Relationship between population number and detuning amounts of probe light under different conditions. (a) Ω1=Ω2; (b) Ω1=0.1Ω2
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    Influence of pumping light on nonlinear absorption.(a) Influence of intensity of pumped light on nonlinear absorption; (b) influence of detuning of pumped light on nonlinear absorption
    Fig. 3. Influence of pumping light on nonlinear absorption.(a) Influence of intensity of pumped light on nonlinear absorption; (b) influence of detuning of pumped light on nonlinear absorption
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    Cross nonlinearities under different detuning of different pumping light. (a) Third-order cross nonlinearities absorption; (b) cross-Kerr coefficient
    Fig. 4. Cross nonlinearities under different detuning of different pumping light. (a) Third-order cross nonlinearities absorption; (b) cross-Kerr coefficient
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    Influence of pumping light on fifth-order nonlinear absorption. (a) Influence of intensity of pumping light on nonlinear absorption; (b) influence of detuning amount of pumping light on nonlinear absorption
    Fig. 5. Influence of pumping light on fifth-order nonlinear absorption. (a) Influence of intensity of pumping light on nonlinear absorption; (b) influence of detuning amount of pumping light on nonlinear absorption
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    Performance curves of fifth-order cross nonlinearity under different detuning amounts of pumping light. (a) Absorption; (b) dispersion
    Fig. 6. Performance curves of fifth-order cross nonlinearity under different detuning amounts of pumping light. (a) Absorption; (b) dispersion
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    Performance curves of fifth-order cross nonlinearity under different detuning amounts of pumping light. (a) Absorption; (b) dispersion
    Fig. 7. Performance curves of fifth-order cross nonlinearity under different detuning amounts of pumping light. (a) Absorption; (b) dispersion
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    Relationship between among probe light, generated light, and propagation distance of medium under six-wave mixing
    Fig. 8. Relationship between among probe light, generated light, and propagation distance of medium under six-wave mixing
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    Abstract
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    References (21)
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    Shudi Mei, Xinyi Zhang, Guoguo Xin, Yingjie Du. Fifth-Order Nonlinear Effects by Electromagnetical Induced Enhancement[J]. Laser & Optoelectronics Progress, 2021, 58(17): 1702001
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    Paper Information
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