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PUBMED FOR HANDHELDS

Journal Abstract Search


577 related items for PubMed ID: 23546109

  • 1.
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  • 3. Silicon microring resonators with 1.5-microm radius.
    Xu Q, Fattal D, Beausoleil RG.
    Opt Express; 2008 Mar 17; 16(6):4309-15. PubMed ID: 18542527
    [Abstract] [Full Text] [Related]

  • 4. The transmission characteristics of surface plasmon polaritons in ring resonator.
    Wang TB, Wen XW, Yin CP, Wang HZ.
    Opt Express; 2009 Dec 21; 17(26):24096-101. PubMed ID: 20052121
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  • 6. Ultra-compact, high-Q silicon microdisk reflectors.
    Shi W, Yun H, Zhang W, Lin C, Chang TK, Wang Y, Jaeger NA, Chrostowski L.
    Opt Express; 2012 Sep 24; 20(20):21840-6. PubMed ID: 23037334
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  • 7. High-efficiency second-harmonic generation in doubly-resonant χ(²) microring resonators.
    Bi ZF, Rodriguez AW, Hashemi H, Duchesne D, Loncar M, Wang KM, Johnson SG.
    Opt Express; 2012 Mar 26; 20(7):7526-43. PubMed ID: 22453432
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  • 8. Submicron optical waveguides and microring resonators fabricated by selective oxidation of tantalum.
    Rabiei P, Ma J, Khan S, Chiles J, Fathpour S.
    Opt Express; 2013 Mar 25; 21(6):6967-72. PubMed ID: 23546079
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  • 9. Photoconductive effect on p-i-p micro-heaters integrated in silicon microring resonators.
    Zhou L, Zhu H, Zhang H, Chen J.
    Opt Express; 2014 Jan 27; 22(2):2141-9. PubMed ID: 24515224
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  • 10. Integrated interferometric approach to solve microring resonance splitting in biosensor applications.
    Werquin S, Verstuyft S, Bienstman P.
    Opt Express; 2013 Jul 15; 21(14):16955-63. PubMed ID: 23938544
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  • 11. Low power and compact reconfigurable multiplexing devices based on silicon microring resonators.
    Dong P, Qian W, Liang H, Shafiiha R, Feng NN, Feng D, Zheng X, Krishnamoorthy AV, Asghari M.
    Opt Express; 2010 May 10; 18(10):9852-8. PubMed ID: 20588834
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  • 12. Ultra-high order ring resonator system with sharp transmission peaks.
    Tao SH, Mao SC, Song JF, Fang Q, Yu MB, Lo GQ, Kwong DL.
    Opt Express; 2010 Jan 18; 18(2):393-400. PubMed ID: 20173859
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  • 13. Critical coupling in dissipative surface-plasmon resonators with multiple ports.
    Yoon J, Seol KH, Song SH, Magnusson R.
    Opt Express; 2010 Dec 06; 18(25):25702-11. PubMed ID: 21164916
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  • 14. Micro-resonator with metallic mirrors coupled to a bus waveguide.
    Zamek S, Feng L, Khajavikhan M, Tan DT, Ayache M, Fainman Y.
    Opt Express; 2011 Jan 31; 19(3):2417-25. PubMed ID: 21369060
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  • 15. Direct fabrication of silicon photonic devices on a flexible platform and its application for strain sensing.
    Fan L, Varghese LT, Xuan Y, Wang J, Niu B, Qi M.
    Opt Express; 2012 Aug 27; 20(18):20564-75. PubMed ID: 23037104
    [Abstract] [Full Text] [Related]

  • 16. Coupling modulation of microrings at rates beyond the linewidth limit.
    Sacher WD, Green WM, Assefa S, Barwicz T, Pan H, Shank SM, Vlasov YA, Poon JK.
    Opt Express; 2013 Apr 22; 21(8):9722-33. PubMed ID: 23609681
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  • 17. Ultra-small silicon waveguide coupler switch using gap-variable mechanism.
    Akihama Y, Kanamori Y, Hane K.
    Opt Express; 2011 Nov 21; 19(24):23658-63. PubMed ID: 22109391
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  • 18. Theoretical investigation of ultracompact and athermal Si electro-optic modulator based on Cu-TiO2-Si hybrid plasmonic donut resonator.
    Zhu S, Lo GQ, Kwong DL.
    Opt Express; 2013 May 20; 21(10):12699-712. PubMed ID: 23736489
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  • 19. Sensitive label-free and compact biosensor based on concentric silicon-on-insulator microring resonators.
    Li X, Zhang Z, Qin S, Wang T, Liu F, Qiu M, Su Y.
    Appl Opt; 2009 Sep 01; 48(25):F90-4. PubMed ID: 19724320
    [Abstract] [Full Text] [Related]

  • 20. An integrated optic ethanol vapor sensor based on a silicon-on-insulator microring resonator coated with a porous ZnO film.
    Yebo NA, Lommens P, Hens Z, Baets R.
    Opt Express; 2010 May 24; 18(11):11859-66. PubMed ID: 20589047
    [Abstract] [Full Text] [Related]


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