“ All our dreams can come true, if we have the courage to pursue them. ” – Walt Disney
About Dr. Fazar
Dr.Fazar grew up as number four in a blended family of ten children. She enjoys traveling, especially visiting family in Minnesota when she gets the chance. She loves exploring non-inertial reference frames on roller-coasters and putting up multi-frequency photon emitters at Christmas time. She is also a fantastic π maker. Her favorite place in the world is Walt Disney World in Orlando, Florida, and she hopes to explore the physics of movies and entertainment there someday with a group of her favorite students.
SPS – Society of Physics Students – Students who have taken 3+ semesters of physics are eligible to become a part of this group of students. This group has had a few events since its induction in the summer of 2009 with pizza movie parties and a trip to an AAPT (American Association of Physics Teachers) conference in the fall of 2009. Gain access to scholarships, opportunities and camaraderie by joining us!
AAPT – American Association of Physics Teachers
Scholarships, competitions and Physics and photography
AIP – American Institute of Physics
Want to know what you can do with a physics degree?
APS – American Physical Society
Math, science, history… unraveling the mystery
SPIE – Society for optics, photonics and imaging engineering
Characterization of 10.3 μm cutoff HgCdTe Detector Array. University of Rochester, July-August 2009.
Contracted to characterize diode behavior of a HgCdTe detector array for a proposal by JPL NASA. Developed theories explaining dislocation induced and/or enhanced surface and tunneling dark currents exhibited by the device diodes. Delivered a twenty page paper characterizing the device and explaining the theories in detail to JPL.
Doctoral Research. University of Rochester, 2000-2007. Contributed to the development of long wave infrared detector arrays for space based astronomy in the following ways: Characterized diode behavior by modeling with material parameters, experimentally determined best diode configuration for LWIR space application, developed programs in Interactive Data Language (IDL) to characterize the dark current for each pixel in an array, detected and investigated the presence of burst noise in the source-follower unit cell FET, developed programs in IDL to characterize the phenomenon, and investigated how to correct for and prevent burst noise. Adviser: Dr. Judith Pipher, Department of Physics and Astronomy
Research Assistant. Detector Physics, University of Rochester, July 1999-2000. Investigated ‘black hole’ phenomenon due to erroneous signals during temperature fluctuations of InSb detector arrays for Spitzer Space Telescope. Adviser: Dr. Judith Pipher, Department of Physics and Astronomy
C. M. Bacon, J. L. Pipher, W. J. Forrest, C. W. McMurtry, and J. D. Garnett, “Diode Characterization of Rockwell LWIR HgCdTe Detector Arrays,” in Proc. SPIE, IR Space Telescopes and Instruments., J. C. Mather, ed., 4850, pp. 927-934, 2003.
C. M. Bacon, J. L. Pipher, W. J. Forrest, C. W. McMurtry, J. D. Garnett, D. Lee, and D. D. Edwall, “Characterization of Rockwell Scientific LWIR HgCdTe Detector Arrays,” in Proc. SPIE, Focal Plane Arrays for Space Telescopes., T. J. Grycewicz and C. R. McCreight, eds., 5167, pp. 313-319, 2004.
C. M. Bacon, C. W. McMurtry, J. L. Pipher, W. J. Forrest, J. D. Garnett, D. Lee, and D. D. Edwall, “Further Characterization of Rockwell Scientific LWIR HgCdTe Detector Arrays,” in Proc. SPIE, Infrared Systems and Photoelectronic Technology., E. L. Dereniak, R. E. Sampson and C. B. Johnson, eds., 5563, pp. 35-45, 2005.
C. M. Bacon, C. W. McMurtry, J. L. Pipher, W. J. Forrest, J. D. Garnett, “Burst Noise in the HAWAII-1RG Multiplexer,” in Proc. SPIE, Focal Plane Arrays for Space Telescopes II., T. J. Grycewicz and Marshall, eds., 5902, 2006.
C. M. Bacon, “Development of Long Wave Infrared Detectors for Space Astronomy”, Ph.D. Dissertation, University of Rochester, 2007.
C. M. Bacon, C. W. McMurtry, J. L. Pipher, A. Mainzer, and W. Forrest, “Effect of dislocations on dark current in LWIR HgCdTe photodiodes,” in Proc. SPIE, High Energy, Optical, and Infrared Detectors for Astronomy IV, A D. Holland and D. A. Dorn, eds., 7742, 2010.