Olga Kocharovskaya

Olga Kocharovskaya
Olga Kocharovskaya
Alma mater	N. I. Lobachevsky State University of Nizhny Novgorod
Awards	Willis E. Lamb Award for Laser Science and Quantum Optics, Sigma Xi Distinguished Scientist Award, Presidential Award to Outstanding Young Doctor of Sciences of the Russian Federation
	Scientific career
Fields	Quantum optics, laser physics, optics, photonics
Institutions	Texas A&M University, Russian Academy of Sciences
Thesis	(1986)

Olga Anatolevna Kocharovskaya (Russian: Ольга Анатольевна Кочаровская) is a distinguished professor of physics at Texas A&M University,[1] known for her contributions to laser physics, quantum optics[2] and gamma ray modulation.[3]

Education

Kocharovskaya earned a doctorate in 1986 from N. I. Lobachevsky State University of Nizhny Novgorod.[1] Her research at that time was the first to study electromagnetically induced transparency.[4]

Research and career

Kocharovskaya began her postdoctoral research at the Institute of Applied Physics Russian Academy of Sciences in 1986, where she became a senior scientist in 1992 and group leader in 1996.[1] From 1990 to 1996, she was also a visiting research scientist at the Université libre de Bruxelles.[5] She completed a habilitation thesis titled "Lasers without population inversion" in 1996, awarded by the Commission of the Russian Federation.[1][6] In 1998, she joined Texas A&M University as an associate professor, and became a distinguished professor in 2006.

Awards and honours

Kocharovskaya received the Outstanding Young Professor of the Russian Federation Award of the Russian Academy of Science in 1996, and was one of three inaugural winners of the Willis E. Lamb Award for Laser Science and Quantum Optics in 1998, sponsored by the annual Physics of Quantum Electronics conference.[2] She has also been a recipient of the University Distinguished Professor Award (2011) and the Distinguished Scientist Award from Sigma Xi, the Scientific Research Society at Texas A&M University (2012).[7]

She has been a fellow of The Optical Society since 1997, and of the American Physical Society since 2005.[8]

gollark: I blame some sort of weird interaction between insurance companies, regulation/the government, consumers of healthcare services, and the companies involved in healthcare.

gollark: The US healthcare system is just really quite broken and there is probably not some individual there who's just going "MWAHAHAHA, my plan to increase the price of healthcare has succeeded, and I could easily make everything reasonable but I won't because I'm evil!", or one person who could decide to just make some stuff free right now without introducing some huge issues. It's a systemic issue.

gollark: Yes, they do have considerations other than minimizing short-term COVID-19 deaths, but that is sensible because other things do matter.

gollark: The US government, and large business owners and whoever else ("capitalism"), don't really want people to die in large numbers *either*, they're:- still *people*- adversely affected by said large numbers dying, because: - if lots of people die in the US compared to elsewhere, they'll look bad come reelection - most metrics people look at will also be worse off if many die and/or are ill for a while - many deaths would reduce demand for their stuff, and they might lose important workers, and more deaths means a worse recession

gollark: That is stupid on so many levels. Is it meant to be some homepathic thing, where the blood is obviously even more worserer if they dilute it?

References

"Curriculum vitae" (PDF). Retrieved 1 December 2019.
"The Willis E. Lamb Award for Laser Science and Quantum Optics". Retrieved 1 December 2019.
"Gamma-ray shaping could lead to 'nuclear' quantum computers". PhysicsWorld. Institute of Physics. 20 March 2014. Retrieved 1 December 2019.
"Texas A&M University Physicists Have Devised A Way To Stop Light". Science. Texas A&M University. January 26, 2001. Retrieved 1 December 2019.
"Olga Kocharovskaya - Faculty Member". TAMU Physics & Astronomy. 2019-09-30. Retrieved 2020-06-13.
"Лазеры без инверсии населенностей" [Lasers without population inversion; record of Kocharovskaya's habilitation thesis] (in Russian). Russian State Library. Retrieved 1 December 2019.
"Two Physics Faculty Honored by Texas A&M Sigma Xi Chapter". Texas A&M College of Science. 2012-05-04. Retrieved 2020-06-13.
"APS Fellows Nominated by the Division of Atomic, Molecular & Optical Physics for 2005". American Physical Society. Retrieved 1 December 2019.

External links

Home page
Olga Kocharovskaya publications indexed by Google Scholar

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[cv-1] "Curriculum vitae" (PDF). Retrieved 1 December 2019.

[lamb-2] "The Willis E. Lamb Award for Laser Science and Quantum Optics". Retrieved 1 December 2019.

[3] "Gamma-ray shaping could lead to 'nuclear' quantum computers". PhysicsWorld. Institute of Physics. 20 March 2014. Retrieved 1 December 2019.

[4] "Texas A&M University Physicists Have Devised A Way To Stop Light". Science. Texas A&M University. January 26, 2001. Retrieved 1 December 2019.

[5] "Olga Kocharovskaya - Faculty Member". TAMU Physics & Astronomy. 2019-09-30. Retrieved 2020-06-13.

[6] "Лазеры без инверсии населенностей" [Lasers without population inversion; record of Kocharovskaya's habilitation thesis] (in Russian). Russian State Library. Retrieved 1 December 2019.

[7] "Two Physics Faculty Honored by Texas A&M Sigma Xi Chapter". Texas A&M College of Science. 2012-05-04. Retrieved 2020-06-13.

[8] "APS Fellows Nominated by the Division of Atomic, Molecular & Optical Physics for 2005". American Physical Society. Retrieved 1 December 2019.