Mikhail Kats

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Born1986 (age 3940)
EducationBS, Engineering Physics, 2008, Cornell University
S.M., 2010, PhD, applied physics, 2014, Harvard University
Mikhail Kats
Born1986 (age 3940)
Academic background
EducationBS, Engineering Physics, 2008, Cornell University
S.M., 2010, PhD, applied physics, 2014, Harvard University
Doctoral advisorFederico Capasso
Academic work
InstitutionsUniversity of Wisconsin–Madison
Websitekatsgroup.ece.wisc.edu

Mikhail A. Kats (born 1986) is an American optics/photonics researcher and applied physicist. He is Jack St. Clair Kilby associate professor of electrical and computer engineering at the University of Wisconsin–Madison. During his studies at Harvard University as a graduate student, Kats developed new nanophotonic and plasmonic technologies.

Kats was born in Saint Petersburg, Russia, but his family moved to Kansas when he was a child.[1] He grew up in Overland Park, Kansas where he attended Harmony Middle School and Blue Valley Northwest High School with Arash Ferdowsi.[citation needed] Kats earned his Bachelor of Science degree in engineering physics in 2008 from Cornell University before enrolling at Harvard University for his graduate degrees.[2] He had originally planned to study computer science at Cornell but was drawn to applied physics, particularly optics and photonics. Kats also pursued undergraduate research in Cornell's Semiconductor Optoelectronics Group led by Farhan Rana.[1]

While completing his master's degree and PhD, Kats developed new nanophotonic and plasmonic technologies under the direction of Federico Capasso. Together with Nanfang Yu, Patrice Genevet, Zeno Gaburro, and several other members of Capasso's research group, Kats developed optical metasurfaces based on resonant plasmonic antennas that resulted in the generalization of the laws of reflection on refraction and the development of flat lenses with thickness of tens of nanometers. Kats and colleagues also demonstrated that absorbing films of the thickness of tens of atoms can display thin-film interference effects.[3] In the same year, Kats also co-invented a device which reacts to temperature changes by reflecting dramatically more or less infrared light, making it well suited for use in a range of infrared optical devices.[4]

Career

References

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