Jeremy Ellis works in the Remote Sensing Multi-Spectral Imaging Group in EOSL. The Multi-Spectral Imaging Group performs research in hyper-spectral and multi-spectral imaging, processing, and analysis; geospatial information systems (GIS); and acoustic and mechanical systems.
Education
2006 Doctor of Philisophy, Optics
University of Central Florida
2000 Bachelor of Science, Mathematics and Physics
Duke University
Employment History
2009-present Tech Temp
Georgia Tech Research Institute
2006-2008 Post Doctoral Research Scienist
University of Central Florida
2000-2006 Graduate Research Assistant
University of Central Florida
Experience Summary
Research focused on the use of polarization and coherence phenomena for statistical sensing, light-matter interaction, material characterization, and structured illumination. Graduate work focused on the generalization of the theory of Polarization and Coherence to include three dimensional random fields and high-order field correlations, both theoretically and experimentally.
Current Fields of Interest
Polarization and Coherence of electromagnetic radiation as they relate to imaging and sensing scenarios
This includes Polarimetric Remote Sensing, Mueller matrix characterization/detection of materials, Polarimetric Scene Generation, Optical Coherence Tomography, and Biomedical sensing.
Major Reports and Publications
1. J. Broky, J. Ellis, and A. Dogariu, “Identifying non-stationarities in random EM fields: are speckles really disturbing?,” Opt. Express 16, 14469-14475 (2008)
2. J. Broky, J. Ellis, and A. Dogariu, “Polarimetric filtering of time-reversal in multiple scattering”, FTuH5 Frontiers in Optics (2007)
3. T. Owens, J. Ellis, and A. Dogariu, “Scattering of Three Dimensional Optical Radiation” OSA Annual Meeting (2006)
4. J. Ellis, C. Schwartz, and A. Dogariu, “Complex Degree of Mutual Polarization as a Measure of Spin and Orbital Angular Momentum of Light”, Optics in the South East (2006)
5. D. Haefner, A. Apostol, J. Ellis, and A. Dogariu, “Vector Statistics of Random Near Fields Using Coupled Dipoles Approximation”, Optics in the South East (2006)
6. J. Ellis and A. Dogariu, “Optical Polarimetry of Random Fields”, Phys. Rev. Lett 95, 203905 (2005)
7. J. Ellis and A. Dogariu, “On the Degree of Polarization for Random Electromagnetic Fields”, Opt Commun 253, 257-265 (2005)
8. J. Ellis, A. Dogariu, “Discrimination of Globally Unpolarized Fields through Stokes Vector Element Correlations” JOSA A 22, 491-496 (2005)
9. J. Ellis, A. Dogariu, S. Ponomarenko, E. Wolf, “Polarization of Statistically Stationary Electromagnetic Fields”, Opt Commun 248, 333-337 (2005)
10. J. Ellis and A. Dogariu, “High Order Correlations in Random Electromagnetic Fields”, SPIE Correlation in Optics (2005)
11. J. Ellis, A. Dogariu, S. Ponomarenko, E. Wolf, “Correlation Matrix of a Completely Polarized, Statistically Stationary Electromagnetic Field”, Optics Letters 29(13), 1536-1538 (2004)
12. J. Ellis and A. Dogariu, “Differentiation of Globally Unpolarized Complex Random Fields”, JOSA A 21(6), 988-993 (2004)
13. J. Ellis and A. Dogariu, “Complex Degree of Mutual Polarization”, Opt. Lett. 29(6), 536-538 (2004)
14. J. Ellis, A. Dogariu, and E. Wolf, “The Concept of Polarization in Near Field Optics”, Quantum Electronics Conference, (IQEC) International, 617-618 (2004)
15. J. Ellis and A. Dogariu, “Stokes Vector Correlations and Material Discrimination from Speckle Fields”, SPIE Defense & Security (2004)
16. J. Ellis, P. Caillard, and A. Dogariu, “Off-diagonal Mueller Matrix Elements in Backscattering from Highly Diffusive Media”, JOSA A 19(1), 43-48 (2002)
17. J. Ellis and A. Dogariu, “Remote Sensing through Reduced Mueller Matrix Elements”, Proc. SPIE 4380, 509-520, Signal Processing, Sensor Fusion, and Target Recgonition X, Ivan Kadar; Ed. (2001)