Journals Articles Conferences News About CLP
Submit a paper Email Alert
Search
Search
Articles
Journals
News
Advanced Search
Top Searches
2D MaterialsTransformation opticsQuantum PhotonicsSmall lasersSemiconductor UV PhotonicsSupersymmetric microring laser arrays

Photonics Research, Volume. 10, Issue 3, 697(2022)

Compact electro-optic modulator on lithium niobate

Bingcheng Pan1, Hongyuan Cao1, Yishu Huang1, Zong Wang2, Kaixuan Chen2, Huan Li1, Zejie Yu1,3,4,6、*, and Daoxin Dai1,3,4,5,7、*
Author Affiliations
  • 1State Key Laboratory for Modern Optical Instrumentation, Center for Optical & Electromagnetic Research, College of Optical Science and Engineering, International Research Center for Advanced Photonics, Zhejiang University, Zijingang Campus, Hangzhou 310058, China
  • 2Guangdong Provincial Key Laboratory of Optical Information Materials and Technology, South China Academy of Advanced Optoelectronics, South China Normal University, Higher-Education Mega-Center, Guangzhou 510006, China
  • 3Jiaxing Key Laboratory of Photonic Sensing & Intelligent Imaging, Jiaxing 314000, China
  • 4Intelligent Optics & Photonics Research Center, Jiaxing Research Institute Zhejiang University, Jiaxing 314000, China
  • 5Ningbo Research Institute, Zhejiang University, Ningbo 315100, China
  • 6e-mail: zjyu@zju.edu.cn
  • 7e-mail: dxdai@zju.edu.cn
    • show less
    Full TextGet PDF
    Figures&Tables (6)
    Equations (0)
    References (31)
    Cited By (41)
    Tools
    Paper Information
    Topics
    References(31)

    [1] C. Haffner, D. Chelladurai, Y. Fedoryshyn, A. Josten, B. Baeuerle, W. Heni, T. Watanabe, T. Cui, B. Cheng, S. Saha, D. L. Elder, L. R. Dalton, A. Boltasseva, V. M. Shalaev, N. Kinsey, J. Leuthold. Low-loss plasmon-assisted electro-optic modulator. Nature, 556, 483-486(2018).

    [2] C. T. Phare, Y.-H. D. Lee, J. Cardenas, M. Lipson. Graphene electro-optic modulator with 30  GHz bandwidth. Nat. Photonics, 9, 511-514(2015).

    [3] J.-H. Han, F. Boeuf, J. Fujikata, S. Takahashi, S. Takagi, M. Takenaka. Efficient low-loss InGaAsP/Si hybrid MOS optical modulator. Nat. Photonics, 11, 486-490(2017).

    [4] M. Lee, H. E. Katz, C. Erben, D. M. Gill, P. Gopalan, J. D. Heber, D. J. McGee. Broadband modulation of light by using an electro-optic polymer. Science, 298, 1401-1403(2002).

    [5] L. Alloatti, R. Palmer, S. Diebold, K. P. Pahl, B. Chen, R. Dinu, M. Fournier, J.-M. Fedeli, T. Zwick, W. Freude, C. Koos, J. Leuthold. 100  GHz silicon–organic hybrid modulator. Light Sci. Appl., 3, e173(2014).

    [6] A. Honardoost, R. Safian, M. Teng, L. Zhuang. Ultralow-power polymer electro–optic integrated modulators. J. Semicond., 40, 070401(2019).

    [7] A. Boes, B. Corcoran, L. Chang, J. Bowers, A. Mitchell. Status and potential of lithium niobate on insulator (LNOI) for photonic integrated circuits. Laser Photon. Rev., 12, 1700256(2018).

    [8] S. Yuan, C. Hu, A. Pan, Y. Ding, X. Wang, Z. Qu, J. Wei, Y. Liu, C. Zeng, J. Xia. Photonic devices based on thin-film lithium niobate on insulator. J. Semicond., 42, 041304(2021).

    [9] B. Pan, J. Hu, Y. Huang, L. Song, J. Wang, P. Chen, Z. Yu, L. Liu, D. Dai. Demonstration of high-speed thin-film lithium-niobate-on-insulator optical modulators at the 2-μm wavelength. Opt. Express, 29, 17710-17717(2021).

    [10] C. Wang, M. Zhang, X. Chen, M. Bertrand, A. Shams-Ansari, S. Chandrasekhar, P. Winzer, M. Lončar. Integrated lithium niobate electro-optic modulators operating at CMOS-compatible voltages. Nature, 562, 101-104(2018).

    [11] P. Kharel, C. Reimer, K. Luke, L. He, M. Zhang. Breaking voltage–bandwidth limits in integrated lithium niobate modulators using micro-structured electrodes. Optica, 8, 357-363(2021).

    [12] M. He, M. Xu, Y. Ren, J. Jian, Z. Ruan, Y. Xu, S. Gao, S. Sun, X. Wen, L. Zhou, L. Liu, C. Guo, H. Chen, S. Yu, L. Liu, X. Cai. High-performance hybrid silicon and lithium niobate Mach–Zehnder modulators for 100 Gbits-1 and beyond. Nat. Photonics, 13, 359-364(2019).

    [13] S. Wang, D. Dai. Polarization-insensitive 2 × 2 thermo-optic Mach–Zehnder switch on silicon. Opt. Lett., 43, 2531-2534(2018).

    [14] L. Song, H. Li, D. Dai. Mach–Zehnder silicon-photonic switch with low random phase errors. Opt. Lett., 46, 78-81(2021).

    [15] C. Zhang, M. Zhang, Y. Xie, Y. Shi, R. Kumar, R. R. Panepucci, D. Dai. Wavelength-selective 2 × 2 optical switch based on a Ge2Sb2Te5-assisted microring. Photon. Res., 8, 1171-1176(2020).

    [16] C. Wang, M. Zhang, B. Stern, M. Lipson, M. Lončar. Nanophotonic lithium niobate electro-optic modulators. Opt. Express, 26, 1547-1555(2018).

    [17] D. Liu, J. Tang, Y. Meng, W. Li, N. Zhu, M. Li. Ultra-low Vpp and high-modulation-depth InP-based electro–optic microring modulator. J. Semicond., 42, 082301(2021).

    [18] B. Pan, Y. Tan, P. Chen, L. Liu, Y. Shi, D. Dai. Compact racetrack resonator on LiNbO3. J. Lightwave Technol., 39, 1770-1776(2021).

    [19] J. Wang, P. Chen, D. Dai, L. Liu. Polarization coupling of X-cut thin film lithium niobate based waveguides. IEEE Photon. J., 12, 2200310(2020).

    [20] A. Pan, C. Hu, C. Zeng, J. Xia. Fundamental mode hybridization in a thin film lithium niobate ridge waveguide. Opt. Express, 27, 35659-35669(2019).

    [21] M. Xu, M. He, X. Liu, Y. Pan, S. Yu, X. Cai. Integrated lithium niobate modulator and frequency comb generator based on Fabry-Perot resonators. Conference on Lasers and Electro-Optics, JTh2B.27(2020).

    [22] M. V. Kotlyar, S. Iadanza, L. O’Faolain. Lithium niobate Fabry-Perot microcavity based on strip loaded waveguides. Photon. Nanostruct. Fundam. Appl., 43, 100886(2021).

    [23] D. Liu, D. Dai. Silicon-based polarization-insensitive optical filter with dual-gratings. Opt. Express, 27, 20704-20710(2019).

    [24] D. Liu, H. Wu, D. Dai. Silicon multimode waveguide grating filter at 2  μm. J. Lightwave Technol., 37, 2217-2222(2019).

    [25] D. Dai, C. Li, S. Wang, H. Wu, Y. Shi, Z. Wu, S. Gao, T. Dai, H. Yu, H.-K. Tsang. 10-channel mode (de)multiplexer with dual polarizations. Laser Photon. Rev., 12, 1700109(2018).

    [26] H. Qiu, J. Jiang, T. Hu, P. Yu, J. Yang, X. Jiang, H. Yu. Silicon add-drop filter based on multimode Bragg sidewall gratings and adiabatic couplers. J. Lightwave Technol., 35, 1705-1709(2017).

    [27] G. Li, X. Zheng, J. Yao, H. Thacker, I. Shubin, Y. Luo, K. Raj, J. E. Cunningham, A. V. Krishnamoorthy. 25  Gb/s 1 V-driving CMOS ring modulator with integrated thermal tuning. Opt. Express, 19, 20435-20443(2011).

    [28] M. Li, J. Ling, Y. He, U. A. Javid, S. Xue, Q. Lin. Lithium niobate photonic-crystal electro-optic modulator. Nat. Commun., 11, 4123(2020).

    [29] D. A. B. Miller. Attojoule optoelectronics for low-energy information processing and communications. J. Lightwave Technol., 35, 346-396(2017).

    [30] B.-B. Li, Y.-F. Xiao, C.-L. Zou, X.-F. Jiang, Y.-C. Liu, F.-W. Sun, Y. Li, Q. Gong. Experimental controlling of Fano resonance in indirectly coupled whispering-gallery microresonators. Appl. Phys. Lett., 100, 021108(2012).

    [31] W. D. Sacher, W. M. J. Green, S. Assefa, T. Barwicz, H. Pan, S. M. Shank, Y. A. Vlasov, J. K. S. Poon. Coupling modulation of microrings at rates beyond the linewidth limit. Opt. Express, 21, 9722-9733(2013).

    Tools

    Get Citation

    Copy Citation Text

    Bingcheng Pan, Hongyuan Cao, Yishu Huang, Zong Wang, Kaixuan Chen, Huan Li, Zejie Yu, Daoxin Dai, "Compact electro-optic modulator on lithium niobate," Photonics Res. 10, 697 (2022)

    Download Citation

    EndNote(RIS)BibTexPlain Text
    Set citation alerts for article
    Save article for my favorites
    Paper Information

    Category: Integrated Optics

    Received: Dec. 3, 2021

    Accepted: Jan. 10, 2022

    Published Online: Feb. 22, 2022

    The Author Email: Zejie Yu (zjyu@zju.edu.cn), Daoxin Dai (dxdai@zju.edu.cn)

    DOI:10.1364/PRJ.449172

    Topics

    laser devices and laser physics
    Lasers and Laser Optics
    Laser physics
    laser manufacturing
    Instrumentation, Measurement and Metrology