Difference between revisions of "Camilo"
From Camilo's web
m |
m |
||
Line 17: | Line 17: | ||
I am a Theoretical Physicist and currently I work as a Teaching Associate in Physics at the University of Wolverhampton (UK), where I am also part of the [http://camilopez.org/wlv/Main_Page Wolverhampton Light and Matter] group. | I am a Theoretical Physicist and currently I work as a Teaching Associate in Physics at the University of Wolverhampton (UK), where I am also part of the [http://camilopez.org/wlv/Main_Page Wolverhampton Light and Matter] group. | ||
I completed my PhD at the [http://uam.es/ Universidad Autónoma] de [[Madrid|Madrid]] in November 2019, under the supervision of [http://laussy.org/wiki/Fabrice Dr. Fabrice Laussy] and [http://laussy.org/wiki/Elena Dr. Elena del Valle]. | I completed my PhD at the [http://uam.es/ Universidad Autónoma] de [[Madrid|Madrid]] in November 2019, under the supervision of [http://laussy.org/wiki/Fabrice Prof. Dr. Fabrice Laussy] and [http://laussy.org/wiki/Elena Dr. Elena del Valle]. | ||
[[Thesis|My thesis]] was about the sources of Quantum Light—both at the single- and multi-photon level—and the regimes of excitation that can be reached by systems that are driven with these rather than by classical sources. | [[Thesis|My thesis]] was about the sources of Quantum Light—both at the single- and multi-photon level—and the regimes of excitation that can be reached by systems that are driven with these rather than by classical sources. |
Revision as of 20:19, 15 June 2020
Camilo López
<wz tip="At home"></wz>
I am Juan Camilo López Carreño.
I was born in Bogotá, Colombia 33.3 years ago.
I am a Theoretical Physicist and currently I work as a Teaching Associate in Physics at the University of Wolverhampton (UK), where I am also part of the Wolverhampton Light and Matter group.
I completed my PhD at the Universidad Autónoma de Madrid in November 2019, under the supervision of Prof. Dr. Fabrice Laussy and Dr. Elena del Valle.
My thesis was about the sources of Quantum Light—both at the single- and multi-photon level—and the regimes of excitation that can be reached by systems that are driven with these rather than by classical sources.