Qr code
中文
李莹 18

Associate professor


Gender:Female
Alma Mater:University of Nebraska-Lincoln
Education Level:With Certificate of Graduation for Doctorate Study
Degree:Doctoral Degree in Engineering
Status:在岗
School/Department:物理与光电工程学院(公共物理教学部)
E-Mail:003370@nuist.edu.cn
Click:Times

The Last Update Time: 2023.4.6

Profile

CONTACT DETAILS

                           

Address: School of Physics and Optoelectronic Engineering, 

               Nanjing University of Information Science and Technology, 

               Room 403, Nanjing, 210044, China.Department of Electrical and Computer Engineering

 

Email: ying@nuist.edu.cn                               Alt. Email: liyingnku@gmail.com

                                      

RESEARCH INTERESTS

Linear and nonlinear plasmonics and nanophotonics, nanoantennas, metamaterials and their applications, PT-symmetric and nonreciprocal devices, photonic exceptional points, active, tunable and reconfigurable meta-devices, quantum optics, novel energy harvesting devices, and computational electromagnetics.

 

EDUCATION

2015-2020        PhD in Electronic Engineering

  University of Nebraska-Lincoln, Department of Electrical and Computer Engineering,

                          Plasmonics, Metamaterials, and Integrated Nanophotonics Group, Lincoln, NE, USA

 

2012-2015         MSc in Optics

    Nankai University, School of Physics and TEDA Applied Physics Institute,

    Key Lab of Weak Light Nonlinear Photonics, Tianjin, China

      

2008-2012          BSc in Physics

    Shandong Normal University, School of Physics and Electronic Science,

    Department of Physics, Jinan, China

 

  

PUBLICATIONS

 

Journal Publications:

 

[1]  D. S. Khatri, Y. Li, J. Chen, A. E. Stocks, E. A. Kwizera, X. Huang, C. Argyropoulos, and T. Hoang, “Plasmonic random laser on an optical fiber tip,” Optics Express, vol. 28, No. 11, pp. 16417, 2020.


[2] N. Charchi, Y. Li, M. Huber, E. A. Kwizera, X. Huang, C. Argyropoulos, and T. Hoang, “Small mode volume plasmonic film-coupled nanostar resonators,” Nanoscale Advances, vol. 2, pp. 2397, 2020 (Selected to be included in the 2020 Nanoscale Advances HOT Article Collection).  

 

[3]  M. Sun, Y. Li, B. Zhang, C. Argyropoulos, P. Sutter, and E. Sutter, “Plasmonic Effects on the Growth of Ag Nanocrystals in Solution,” Langmuir, vol. 36, No. 8, p. 2044-2051, 2020.


[4]  Y. Li, A. Nemilentsau, and C. Argyropoulos, “Resonance Energy Transfer and Quantum Entanglement Mediated by Epsilon-Near-Zero and Other Plasmonic Waveguide Systems,” Nanoscale, vol. 11, pp. 14635-14647, 2019. (Selected to be included in the 2019 Nanoscale HOT Article Collection)


[5]  Y. Li and C. Argyropoulos, “Exceptional points and spectral singularities in active epsilon-near-zero plasmonic waveguides,” Physical Review B, vol. 99, pp. 075413, 2019.

 

[6]  Y. Li and C. Argyropoulos, “Epsilon-near-zero plasmonic waveguides to enhance nonlinear coherent light-matter interactions,” Proc. SPIE 10721, Active Photonic Platforms X, 1072106, 2018.

 

[7]  Y. Li and C. Argyropoulos, “Tunable nonlinear coherent perfect absorption in epsilon-near-zero plasmonic waveguides,” Optics Letters, vol. 43, No. 8, pp. 1806-1809, 2018. (Selected as Editor's Pick)


[8]  P. Sutter, Y. Li, C. Argyropoulos, and E. Sutter, “In Situ Electron Microscopy of Plasmon Mediated Nanocrystal Synthesis,” J. Am. Chem. Soc., vol. 139, No. 19, pp. 6771-6776, 2017. (selected for issue cover and spotlight)

 

[9]  Y. Li and C. Argyropoulos, “Controlling collective spontaneous emission with plasmonic waveguides,” Optics Express, vol. 24, No. 23, pp. 26696-26708, 2016.

 

[10] G. M. Akselrod, M. C. Weidman, Y. Li, C. Argyropoulos, W. A. Tisdale, and M. H. Mikkelsen, “Efficient Nanosecond Photoluminescence from Infrared PbS Quantum Dots Coupled to Plasmonic Nanoantennas,” ACS Photonics, vol. 3(10), pp. 1741-1746, 2016.

 

[11]   F. Bo, X. Wang, Y. Li, F. Gao, G. Zhang, and J. Xu, “Mode characteristics of silver-coated inverted-wedge silica microdisks,” Science China Physics, Mechanics & Astronomy, vol. 58, pp. 114207, 2015.

 

[12]  Y. Li, H. Liu, H. Jia, F. Bo, G. Zhang, and J. Xu, “Fully vectorial modeling of cylindrical microresonators with aperiodic Fourier modal method,” Journal of the Optical Society of America A, vol. 31, no. 11, pp. 2459, 2014.

 

Conference Presentations:


[1]  Y. Li and C. Argyropoulos, “Epsilon-near-zero plasmonic waveguides to achieve multi-qubit quantum entanglement,” IEEE AP-S/URSI National Radio Science Meeting, Montreal, Canada, July 5-10, 2020.

 

[2]  Y. Li and C. Argyropoulos, “Epsilon-near-zero plasmonic nanowaveguides to achieve efficient resonance energy transfer and quantum entanglement,” APS March Meeting 2020, Denver, CO, USA, March 2-6, 2020.

 

[3]  C. Argyropoulos and Y. Li, “Active epsilon-near-zero plasmonic waveguides to achieve exceptional points and light amplification at the nanoscale,” SPIE Optics and Photonics, San Diego, CA, USA, August 11-15, 2019.

 

[4]  Y. Li and C. Argyropoulos, “Slow light at the nanoscale based on active epsilon-near-zero plasmonic waveguides,” IEEE AP-S/URSI National Radio Science Meeting, Atlanta, GA, USA, July 7-12, 2019.

 

[5]  Y. Li and C. Argyropoulos, “Nanophotonic Exceptional Points and Quantum Entanglement by Epsilon-Near-Zero Plasmonic Waveguides,” UNL Research Fair 2019, Lincoln, NE, USA, April 15, 2019.

 

[6]  Y. Adhikari, T. B. Hoang, Y. Li, and C. Argyropoulos, “Control of radiative processes using periodic arrays of plasmonic nanostructures,” APS March Meeting 2019, Boston, MA, USA, March 4-8, 2019.

 

[7]  C. Argyropoulos and Y. Li, “Epsilon-near-zero plasmonic waveguides to enhance coherent and nonlinear light-matter interactions,” SPIE Optics and Photonics, San Diego, CA, USA, August 19-23, 2018.

 

[8]  Y. Li and C. Argyropoulos, “Epsilon-Near-Zero Plasmonic Waveguides for Enhanced Coherent Optical Effects,” UNL Research Fair 2018, Lincoln, NE, USA, April 10-11, 2018.

 

[9]  Y. Li and C. Argyropoulos, “Superradiance and PT symmetry with plasmonic waveguides,” META 2017, the 8th International Conference on Metamaterials, Photonic Crystals and Plasmonics, Incheon-Seoul, South Korea, July 25-28, 2017.

 

[10] Y. Li and C. Argyropoulos, “PT-symmetric epsilon-near-zero plasmonic waveguides,” IEEE AP-S/URSI National Radio Science Meeting, San Diego, CA, USA, July 9-14, 2017.

 

[11] Y. Li and C. Argyropoulos, “Enhanced Photoluminescence from Infrared PbS Quantum Dots Coupled to Plasmonic Nanoantennas,” UNL Research Fair 2017, Lincoln, NE, USA, April 4-5, 2017.

 

[12] Y. Li and C. Argyropoulos, “Superradiance, subradiance and PT-symmetry with plasmonic nanochannels,” USNC–URSI National Radio Science Meeting, Boulder, CO, USA, January 4-7, 2017.

 

[13] C. Argyropoulos and Y. Li, “Quantum Superradiant and Subradiant Modes in Plasmonic Nanochannels,” EMTS 2016, URSI Commission B, International Symposium on Electromagnetic Theory, August 14-18, 2016, Espoo, Finland.

 

[14] Y. Li, X. Wang, F. Bo, F. Gao, G. Zhang, and J. Xu, “ Optical manipulations of surface-plasmon-polariton whispering-gallery modes in metal-coated inverted-wedge silica resonators,” Chinese Physical Society Fall Meeting, September 12-14, 2014, Harbin, China.

 


Educational Experience

No Content
Work Experience

No Content
Social Affiliations

No Content
Other Contact Information

  • E-mail : ying@nuist.edu.cn

Research Group

No Content
Research Focus

No Content