Ian Williamson's website

Publications

Preprints

  1. I. A. D. Williamson and S. Fan, “Broadband Optical Switch Based on an Achromatic Photonic Gauge Potential in Dynamically Modulated Waveguides,” arXiv:1812.00953, Dec. 2018. (arXiv)
  2. N. Zhao, Z. Zhao, I. Williamson, S. Boutami, B. Zhao, and S. Fan, “High Reflection from a One-Dimensional Array of Graphene Nanoribbons,” arXiv:1812.04768 [physics], Dec. 2018. (arXiv)
  3. T. W. Hughes, M. Minkov, I. A. D. Williamson, and S. Fan, “Adjoint Method and Inverse Design for Nonlinear Nanophotonic Devices,” arXiv:1811.01255 [physics], Nov. 2018. (arXiv)
  4. M. Minkov, I. A. D. Williamson, M. Xiao, and S. Fan, “Zero-Index Bound States in the Continuum,” arXiv:1811.11917 [physics], Nov. 2018. (arXiv)
  5. S. Buddhiraju, Y. Shi, A. Song, C. Wojcik, M. Minkov, I. A. D. Williamson, A. Dutt, and S. Fan, “Absence of Unidirectionally Propagating Surface Plasmon-Polaritons in Nonreciprocal Plasmonics,” arXiv:1809.05100 [physics], Sep. 2018. (arXiv)
  6. I. A. D. Williamson and Z. Wang, “Fundamental Limits to Signal Integrity in Nonlinear Parametric Optical Circulators,” arXiv:1711.02060 [physics], Nov. 2017. (arXiv)

Journal Articles

  1. I. A. D. Williamson, S. H. Mousavi, and Z. Wang, “Dual-Carrier Floquet Circulator with Time-Modulated Optical Resonators,” ACS Photonics, vol. 5, no. 9, pp. 3649–3657, Sep. 2018. (web)
  2. I. A. D. Williamson, S. H. Mousavi, and Z. Wang, “Large Cavity-Optomechanical Coupling with Graphene at Infrared and Terahertz Frequencies,” ACS Photonics, vol. 3, no. 12, pp. 2353–2361, Dec. 2016. (pdf, web)
  3. S. H. Mousavi, I. A. D. Williamson, and Z. Wang, “Kinetic Inductance Driven Nanoscale 2D and 3D THz Transmission Lines,” Scientific Reports, vol. 6, p. 25303, May 2016. (pdf, web)
  4. I. A. D. Williamson, S. H. Mousavi, and Z. Wang, “Extraordinary Wavelength Reduction in Terahertz Graphene-Cladded Photonic Crystal Slabs,” Scientific Reports, vol. 6, p. 25301, May 2016. (pdf, web)
  5. I. A. D. Williamson, T.-A. N. Nguyen, and Z. Wang, “Suppression of the Skin Effect in Radio Frequency Transmission Lines via Gridded Conductor Fibers,” Applied Physics Letters, vol. 108, no. 8, p. 083502, Feb. 2016. (pdf, web)

Patents

  1. R. D. Ulerich and I. A. Williamson, “Multiple Sorting of Columns in a Displayed Table in a User Interactive Computer Display Interface through Sequential Radial Menus,” Apr-2012.

Conferences

  1. I. Williamson and Z. Wang, “Cascaded Floquet Resonators as Dual-Carrier Optical Circulators,” in Frontiers in Optics, 2017, p. JW3A.48. (web)
  2. D. Wang, I. Williamson, H. Mousavi, and Z. Wang, “Strong Attractive Force Between Graphene Sheets at Terahertz Induced by Extraordinary Wavelength Reduction,” in Conference on Lasers and Electro-Optics, 2016, p. FTu3B.6. (web)
  3. I. Williamson, H. Mousavi, and Z. Wang, “Enhanced Dispersive and Dissipative Coupling Regimes in Graphene Optomechanics,” in Conference on Lasers and Electro-Optics, 2016, p. FTu3B.7. (web)
  4. I. Williamson, S. H. Mousavi, and Z. Wang, “Dynamically Tunable Graphene/Dielectric Photonic Crystal Transmission Lines,” in APS March Meeting Abstracts, 2015.
  5. S. H. Mousavi, I. Williamson, and Z. Wang, “Graphene Planar Interconnects: Dispersively- and Geometrically-Controlled Attenuation in RC, LC, and Skin-Depth Regimes,” in MRS Spring Meeting, 2014.
  6. I. A. D. Williamson, K. N. Parrish, A. Alu, and D. Akinwande, “Dielectric Interconnects For THz Chip-to-Chip Communications,” in SRC Techcon, 2012.