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    Journals >Photonics Research >Volume 5 >Issue 6 >Page 728 > Article
    • Photonics Research
    • Vol. 5, Issue 6, 728 (2017)
    Intracavity biosensor based on the Nd:YAG waveguide laser: tumor cells and dextrose solutions
    Guanhua Li1, Huiyuan Li2, Rumei Gong3, Yang Tan4,*..., Javier Rodríguez Vázquez de Aldana5, Yuping Sun3 and Feng Chen4|Show fewer author(s)
    Author Affiliations
  • 1Department of Respiration, Jinan Central Hospital Affiliated to Shandong University, Jinan, Shandong 250013, China
  • 2Department of Ophthalmology, Jinan Central Hospital Affiliated to Shandong University, Jinan, Shandong 250013, China
  • 3Department of Oncology, Jinan Central Hospital Affiliated to Shandong University, Jinan, Shandong 250013, China
  • 4School of Physics, State Key Laboratory of Crystal Materials, Shandong University, Jinan 250100, China
  • 5Departamento Física Aplicada, Facultad Ciencias, Universidad de Salamanca, Salamanca 37008, Spain
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    DOI: 10.1364/PRJ.5.000728 Cite this Article Set citation alerts
    Guanhua Li, Huiyuan Li, Rumei Gong, Yang Tan, Javier Rodríguez Vázquez de Aldana, Yuping Sun, Feng Chen, "Intracavity biosensor based on the Nd:YAG waveguide laser: tumor cells and dextrose solutions," Photonics Res. 5, 728 (2017) Copy Citation Text show less
    References

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    [8] S. Y. Yang, S. K. Hsiung, Y. C. Hung, C. M. Chang, T.-L. Liao, G.-B. Lee. A cell counting/sorting system incorporated with a microfabricated flow cytometer chip. Meas. Sci. Technol., 17, 2001-2009(2006).

    [9] F. Xing, G. X. Meng, Q. Zhang, L. T. Pan, P. Wang, Z. B. Liu, W. S. Jiang, Y. Chen, J. G. Tian. Ultrasensitive flow sensing of a single cell using graphene-based optical sensors. Nano Lett., 14, 3563-3569(2014).

    [10] C. Grivas. Optically pumped planar waveguide lasers, part I: fundamentals and fabrication techniques. Prog. Quantum Electron., 35, 159-239(2011).

    [11] F. Chen, J. R. V. de Aldana. Optical waveguides in crystalline dielectric materials produced by femtosecond—laser micromachining. Laser Photon. Rev., 8, 251-275(2014).

    [12] Y. Tan, C. Cheng, S. Akhmadaliev, S. Zhou, F. Chen. Nd:YAG waveguide laser Q-switched by evanescent-field interaction with graphene. Opt. Express, 22, 9101-9106(2014).

    [13] Y. Tan, S. Akhmadaliev, S. Zhou, S. Sun, F. Chen. Guided continuous-wave and graphene-based Q-switched lasers in carbon ion irradiated Nd:YAG ceramic channel waveguide. Opt. Express, 22, 3572-3577(2014).

    [14] R. Osellame, V. Maselli, R. M. Vazquez, R. Ramponi, G. Cerullo. Integration of optical waveguides and microfluidic channels both fabricated by femtosecond laser irradiation. Appl. Phys. Lett., 90, 231118(2007).

    [15] V. Maselli, J. R. Grenier, S. Ho. Femtosecond laser written optofluidic sensor: Bragg grating waveguide evanescent probing of microfluidic channel. Opt. Express, 17, 11719-11729(2009).

    [16] Y. Tan, R. He, C. Cheng, D. Wang, Y. Chen, F. Chen. Polarization-dependent optical absorption of MoS2 for refractive index sensing. Sci. Rep., 4, 7523(2014).

    [17] J. Lv, Z. Shang, Y. Tan, J. R. V. de Aldana, F. Chen. Cladding-like waveguide fabricated by cooperation of ultrafast laser writing and ion irradiation: characterization and laser generation. Opt. Express, 25, 19603-19608(2017).

    [18] Y. Tan, X. Liu, Z. He, Y. Liu, M. Zhao, H. Zhang, F. Chen. Tuning of interlayer coupling in large-area graphene/WSe2 van der Waals heterostructure via ion irradiation: optical evidences and photonic applications. ACS Photon., 4, 1531-1538(2017).

    [19] E. Lallier, J. P. Pocholle, M. Papuchon, M. P. De Micheli, M. J. Li, Q. He, D. B. Ostrowsky, C. Grezes-Besset, E. Pelletier. Nd: MgO: LiNbO/sub 3/channel waveguide laser devices. IEEE J. Quantum Electron., 27, 618-625(1991).

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    Guanhua Li, Huiyuan Li, Rumei Gong, Yang Tan, Javier Rodríguez Vázquez de Aldana, Yuping Sun, Feng Chen, "Intracavity biosensor based on the Nd:YAG waveguide laser: tumor cells and dextrose solutions," Photonics Res. 5, 728 (2017)
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