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    Journals >Photonics Research >Volume 6 >Issue 6 >Page 597 > Article
    • Photonics Research
    • Vol. 6, Issue 6, 597 (2018)
    Enhancement of stimulated emission by a metallic optofluidic resonator
    Bei Jiang1、2, Hailang Dai1、2, and Xianfeng Chen1、2、*
    Author Affiliations
  • 1State Key Laboratory of Advanced Optical Communication Systems and Networks, School of Physics and Astronomy, Shanghai Jiao Tong University, Shanghai 200240, China
  • 2Collaborative Innovation Center of IFSA (CICIFSA), Shanghai Jiao Tong University, Shanghai 200240, China
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    DOI: 10.1364/PRJ.6.000597 Cite this Article Set citation alerts
    Bei Jiang, Hailang Dai, Xianfeng Chen. Enhancement of stimulated emission by a metallic optofluidic resonator[J]. Photonics Research, 2018, 6(6): 597 Copy Citation Text show less
    References

    [1] K. J. Vahala. Optical microcavities. Nature, 424, 839-846(2003).

    [2] C. Walther, J. Faist. Microcavity laser oscillating in a circuit-based resonator. Science, 327, 1495-1497(2010).

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    [4] Y. Gao, R. J. Shiue, X. Gan, L. Li, C. Peng, I. Meric, L. Wang, A. Szep, D. Walker, J. Hone, D. Englund. High-speed electro-optic modulator integrated with graphene-boron nitride heterostructure and photonic crystal nanocavity. Nano Lett., 15, 2011-2018(2015).

    [5] D. Bajoni, P. Senellart, E. Wertz, I. Sagnes, A. Miard, A. Lemaître, J. Bloch. Optically tunable/switchable omnidirectionally spherical microlaser based on a dye-doped cholesteric liquid crystal microdroplet with an azo-chiral dopant. Opt. Express, 21, 15765-15776(2013).

    [6] S. Wu, S. Buckley, J. R. Schaibely, L. Feng, J. Yan, D. G. Mandrus, F. Hatami, W. Yao, J. Vučković, A. Majumdar, X. Xu. Monolayer semiconductor nanocavity lasers with ultralow thresholds. Nature, 520, 69-72(2015).

    [7] Q. Gu, B. Slutsky, F. Vallini, J. S. Smalley, M. P. Nezhad, N. C. Frateshi, Y. Fainman. Purcell effect in sub-wavelength semiconductor lasers. Opt. Express, 21, 15603-15617(2013).

    [8] H. Yokoyama, S. D. Broson. Rate equation analysis of microcavity lasers. J. Appl. Phys., 66, 4801-4805(1989).

    [9] Y. Wang, Z. Cao, T. Yu, H. Li, Q. Shen. Enhancement of superprism effect based on the strong dispersion effect of ultrahigh-order modes. Opt. Lett., 33, 1276-1278(2008).

    [10] H. Dai, Z. Cao, Y. Wang, M. Sang, W. Yuan, F. Chen, X. Chen. Concentric circular grating b generated by the patterning trapping of nanoparticles in an optofluidic chip. Sci. Rep., 6, 32018(2016).

    [11] Y. Zheng, Z. Cao, X. Chen. Conical reflection of light during free-space coupling into a symmetrical metal-cladding waveguide. J. Opt. Soc. Am. A, 30, 1901-1904(2013).

    [12] P. Andrew, W. L. Barnes. Energy transfer across a metal film mediated by surface plasmon polaritons. Science, 306, 1002-1005(2004).

    [13] J. R. Lakowitz. Principle of fluorescence spectroscopy. J. Biomed. Opt., 13, 029901(2008).

    [14] W. Yuan, C. Yin, P. Xiao, X. Wang, J. Sun, S. Huang, X. Chen, Z. Cao. Microsecond-scale switching time of magnetic fluids due to the optical trapping effect in waveguide structure. Microfluid. Nanofluid., 11, 781-785(2011).

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    Bei Jiang, Hailang Dai, Xianfeng Chen. Enhancement of stimulated emission by a metallic optofluidic resonator[J]. Photonics Research, 2018, 6(6): 597
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