Selected work of Feiling Wang
1. Devised analytical formulae for predicting electro-optic and nonlinear optical coefficients of materials from their linear properties: Physical Review B. 1992 with Wu & Physical Review B. 1999
2. Discovered light-induced antiferroelectric-ferroelectric phase transition and optical readout: Optics Letters, 1993 with Li, Furman and Haertling
3. Discovered an optical bistability in a ferroelectric-semiconductor interface structure: Applied Physics Letters, 1993 with Haertling
4. Invented and demonstrated a polarization-mode-dispersion compensator (PMDC) for optical-fiber links: Patented, 2001
5. Invented a multi-view optical probe head for endoscopes, Patented, 2008
6. Invented and validated binary phase masking for optical interrogation of tissues, Optics Letters, 2008, and Patented
7. Proposed and demonstrated a new wavefront sensing method: Applied Optics, 2009
8. Invented and demonstrated a sensorless adaptive optics system: Applied Optics, 2010, and Patented
9. Invented and demonstrated the precession-rotation movement for large-area uniformity of thin-film deposition in vacuum: Optical Society of America, 2010 with Crocker and Faber, ISBN: 978-1-55752-891-9
10. Proposed and demonstrated an arbitrary optical-field transformer, Optics Letters, 2011
11. Proposed and validated a high-contrast imaging method for direct imaging of exoplanetes: Astrophysical Journal, 2012
12. First in capturing mid-infrared (Mid-IR) signature of glucose noninvasively: unpublished, 2013 with co-workers
13. Invented and demonstrated lensless endoscopic imaging through a fiber bundle: Patented, 2015 with team
14. Invented and demonstrated an auto-focus like adaptive optics imaging system: Optical Society of America, 2015 with Spivey, ISBN: 978-1-943580-00-2
15. Architecture and mathematics of numerical modeling software for physical vapor deposition (PVD), 2015 - , Tinmodel.com
16. Invented and demonstrated a new deconvolution method for image processing and other applications: unpublished, 2021 with team, Patent pending
17. Demonstrated deconvolution enhancement of magnetic resonance imaging (MRI): Patent pending, 2022 with team