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Dr. Ang Li  (Doctoral Researcher)

This person worked in the group from 2013 till 2018.

Affiliation: NUAA
Research Area: Photonic Parasitics/Novel components and circuits based on silicon microring resonator
Promotor: Wim Bogaerts
PhD Thesis: Ang Li, Nieuwe vrijheidsgraden voor het ontwerp van microring-resonatoren in silicium, Novel Degrees of Freedom for Design of Silicon Microring Resonators, 4/2018
AngLi
Mr. Ang Li graduated from an Erasmus Mundus Master Programme in Sep.2013, with master degrees in photonics network from Technical University Berlin, Germany and Scuola Superiore Sant'anna, Pisa, Italy. His master thesis is " A Photonics Integrated Circuit For Multimode Operation".
Before that he received the BSc. from Mcrioelectronics Department of Fudan University, Shanghai, China in July 2011.

From June 2012 til September 2012, he spent 4 months at Fraunhofer--Heinrich Hertz Institute (HHI) in Berlin, as a research assistant, participating in using Cadence AMS to design a SPI/I2C communication protocol for the control of optical active components.

From March 2016 until August 2016 Ang Li conducted a 5-month internship as a research associate under supervision of Ray Beausoleil in the Large-Scale Integrated Photonics group at Hewlett Packard Labs at Palo Alto, CA, USA.

Specific Research Topics

Publications (21)

    International Journals

  1. A. Li, W. Bogaerts, Reconfigurable nonlinear nonreciprocal transmission in a silicon photonic integrated circuit, Optica, 7(1), p.7-14 doi:10.1364/OPTICA.7.000007 (2020)  Download this Publication (3.4MB).
  2. A. Li, W. Bogaerts, Using backscattering and backcoupling in silicon ring resonators as a new degree of design freedom, Lasers & Photonics Reviews, p.1800244 (18 pages) doi:10.1002/lpor.201800244 (2019)  Download this Publication (3.5MB).
  3. A. Li, W. Bogaerts, Backcoupling manipulation in silicon ring resonators, Photonics Research, 6(6), p.620-629 doi:10.1364/PRJ.6.000620 (2018)  Download this Publication (2.6MB).
  4. A. Li, W. Bogaerts, Tunable electromagnetically induced transparency in integrated silicon photonics circuit, Optics Express, 25(25), p.31688-31695 doi:10.1364/OE.25.031688 (2017)  Download this Publication (2.6MB).
  5. A. Li, W. Bogaerts, Experimental Demonstration of a Single Silicon Ring Resonator with an ultra wide FSR and tuning range, Optics Letters, 42(23), p.4986-4989 doi:10.1364/OL.42.004986 (2017)  Download this Publication (2MB).
  6. A. Li, W. Bogaerts, An actively controlled silicon ring resonator with a fully tunable Fano Resonance, APL Photonics, 2(9), p.1-5 doi:10.1063/1.5000514 (2017)  Download this Publication (9.8MB).
  7. A. Li, W. Bogaerts, Fundamental Suppression of Backscattering in Silicon Microrings, Optics Express, 25(3), p.2092-2099 doi:10.1364/OE.25.002092 (2017)  Download this Publication (2.5MB).
  8. A. Li, T. Van Vaerenbergh, P. De Heyn, P. Bienstman, W. Bogaerts, Backscattering in Silicon Microring Resonators: A Quantitative Analysis, Laser & Photonics Reviews, 10(3), p.420-431 doi:10.1002/lpor.201500207 (2016)  Download this Publication (1.3MB).
  9. A. Li, Q. Huang, W. Bogaerts, Design of a single all-silicon ring resonator with a 150 nm FSR and a 100 nm tuning range around 1550 nm, Photonics Research , 4(2), p.84-92 doi:10.1364/PRJ.4.000084 (2016)  Download this Publication (2.9MB).
  10. Y. Xing, D. Spina, A. Li, T. Dhaene, W. Bogaerts, Stochastic Collocation for Device-level Variability Analysis in Integrated Photonics, Photonics Research, doi:10.1364/PRJ.4.000093 (2016)  Download this Publication (782KB).
      International Conferences

    1. A. Li, W. Bogaerts, Engineered Reflections in Silicon Ring Resonator: A New Degree of Freedom for Design, IEEE Photonics Society Benelux Annual Symposium 2017, Netherlands, p.95-98 (2017)  Download this Publication (1.2MB).
    2. A. Li, W. Bogaerts, A novel approach to create a tunable Fano resonance with an extinction ratio over 40dB, IEEE International Conference on Group IV Photonics, Germany, p.27-28 doi:10.1109/GROUP4.2017.8082179 (2017)  Download this Publication (1.4MB).
    3. A. Li, W. Bogaerts, Fundamentally Cancel Backscattering in Silicon Microrings, CLEO/Europe-EQEC 2017, Germany, p.paper CK-7.4 TUE doi:10.1109/cleoe-eqec.2017.8087136 (2017)  Download this Publication (908KB).
    4. A. Li, Y. Xing, W. Bogaerts, An integrated tunable reflector, European Conference on Integrated Optics (ECIO, Netherlands, p.paper W3.1 (2017)  Download this Publication (971KB).
    5. Y. Xing, A. Li, R. Van Laer, R. Baets, W. Bogaerts, Backscattering induced transmission noise and length dependent attenuation in silicon waveguides, 2016 IEEE Photonics Scociety Benelux Annual Symposium, Belgium, (2016)  Download this Publication (244KB).
    6. A. Li, Y. Xing, R. Van Laer, R. Baets, W. Bogaerts, Extreme Spectral Transmission Fluctuations in Silicon Nanowires Induced by Backscattering, IEEE International Conference on Group IV Photonics 2016, China, p.paper FB4 (2 pages) doi:10.1109/GROUP4.2016.7739068 (2016)  Download this Publication (2.4MB).
    7. Y. Xing, A. Li, R. Van Laer, R. Baets, W. Bogaerts, Backscatter Model for Nanoscale Silicon Waveguides , 24th International Workshop on Optical Wave & Waveguide Theory and Numerical Modelling (OWTNM 2016), Poland, p.paper OWTNM/O-18 (2016)  Download this Publication (615KB).
    8. Y. Xing, D. Spina, A. Li, T. Dhaene, W. Bogaerts, Variability analysis of device-level photonics using stochastic collocation , SPIE Photonics Europe 2016, Belgium, doi:10.1117/12.2224037 (2016)  Download this Publication (112KB).
    9. A. Li, W. Bogaerts, A simple and novel method to obtain a FSR free Silicon Microring, SPIE Photonics Europe 2016, 9891, Belgium, p.paper 989115 doi:10.1117/12.2223644 (2016)  Download this Publication (851KB).
    10. A. Li, Y. Xing, W. Bogaerts, A Novel Sensing Scheme Based on Resonance Splitting of Silicon Microrings, IEEE Photonics Society Benelux, Belgium, (2015).
    11. A. Li, T. Van Vaerenbergh, P. De Heyn, Y. Xing, P. Bienstman, W. Bogaerts, Experimentally demonstrate the origin for asymmetric resonance splitting and contributions from couplers to backscattering in SOI microrings, Integrated Photonics Research, Silicon and Nano Photonics (IPR 2015), United States, p.IM2B.6 doi:10.1364/iprsn.2015.im2b.6 (2015)  Download this Publication (1.4MB).
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