Deborah Varnell
Instructor
- Milwaukee WI UNITED STATES
- Walter Schroeder Library L348
- Electrical Engineering and Computer Science
Deborah Varnell researches optical coherence tomography, 3D imaging and electrical engineering.
Education, Licensure and Certification
B.S.
Electrical Engineering
University of Delaware
2011
Biography
Areas of Expertise
Accomplishments
Finalist, Maiman Student Paper Competition, Conference on Lasers and Electro-Optics
2016
Event and Speaking Appearances
Mid-Infrared Quantum Cascade Optical Coherence Tomography (MIR-OCT) System for Spectroscopy and Imaging
Eastern Analytical Symposium & Exposition, November 14-16 (2016)
Spectroscopy and Imaging Using a Mid-IR Quantum Cascade Optical Coherence Tomography (OCT) System
Conference on Lasers and Electro-Optics, June 5-10 (2016)
Hybrid Mid-IR OCT System for Imaging and Spectroscopy With New High-Power QC Superluminescent Emitters
Eastern Analytical Symposium & Exposition, November 16-18 (2015)
Hybrid Mid-IR OCT System for Imaging and Spectroscopy With New High-Power QC Superluminescent Emitters
IEEE SummerTopicals, July 13-15, (2015)
Hybrid Mid-IR OCT System for Imaging and Spectroscopy With New High-Power QC Superluminescent Emitters
The 13th International Conference on Intersubband Transitions in Quantum Wells September 6-11, (2015)
Selected Publications
Spectroscopy and imaging using a mid-IR quantum cascade optical coherence tomography (OCT) system
CLEO: Applications and TechnologyVarnell, D., Zheng, M.C., Chow, M., Gmachl, C
2016
We have successfully designed and tested the first working high-resolution, mid-IR OCT system that can simultaneously perform structural and chemical analysis of samples using novel low-coherent, high power QC emitters.
Hybrid mid-IR OCT system for imaging and spectroscopy using new high power low-coherence quantum cascade superluminescent emitters
Conference on Lasers and Electro-OpticsVarnell, D., Zheng, M.C., Aung, N.L., Musse, A., Lee, S., Gmachl, C.F.
2015
We have successfully constructed and tested a new mid-infrared optical coherence tomography imaging system capable of simultaneous imaging and spatial spectroscopy using new quantum cascade superluminescent emitters.