1 / 23

Quantum optical methods in classical optics: Optical realizations of quantum systems

Quantum optical methods in classical optics: Optical realizations of quantum systems Héctor Moya-Cessa Instituto Nacional de Astrofísica, Optica y Electrónica Tonantzintla, Pue MEX X ICO. Talk will cover. Optical ralization of a quantum invariant

mardi
Télécharger la présentation

Quantum optical methods in classical optics: Optical realizations of quantum systems

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Quantum optical methods in classical optics:Optical realizations of quantum systems Héctor Moya-Cessa Instituto Nacional de Astrofísica, Optica y Electrónica Tonantzintla, Pue MEXXICO ICO-21 2008

  2. Talk will cover • Optical ralization of a quantum invariant • Optical realization of a quantum beam splitter • Wigner function to evaluate some divergent series ICO-21 2008

  3. Optical ralization of a quantum invariant Time dependent harmonic oscillator (classical) M. Fernández Guasti (Metropolitan University of Mexico) S. Chávez Cerda (INAOE) V. Arrizon (INAOE) Ermakov-Lewis Invariant Lewis, PRL (1967). Ermakov equation ICO-21 2008

  4. Translates into QM as Squeezing & displacement G is an invariant provided its derivative is zero H. Moya-Cessa and M. Fernández Guasti PHYSICS LETTERS A 311, 1 (2003). ICO-21 2008

  5. Time dependence multiplies only one operator ICO-21 2008

  6. ICO-21 2008

  7. ICO-21 2008

  8. Praxial wave equation Suponemos ahora dos medios GRIN pegados GRaded INdex referring to an optical material with refractive index in the form of a parabolic curve, decreasing from the center towards the cladding. ICO-21 2008

  9. ICO-21 2008

  10. Units such that =1 ICO-21 2008

  11. ICO-21 2008

  12. ICO-21 2008

  13. Arfken ICO-21 2008

  14. Optical realization of a quantum beam splitter R. Mar Sarao (INAOE) ICO-21 2008

  15. R.A. Campos, B.E.A. Saleh, and M. C. Teich, Phys. Rev. A 40, 1371 (1989). Splitting in a 50:50 beam splitter ICO-21 2008

  16. ICO-21 2008

  17. Again paraxial wave equation Consider the copropagation of two beams, probe and signal, in a Kerr medium. The probe beam produces the index of refraction If the probe beam has a Gaussian profile, Is astigmatic and slightly tilted,a term xy is produced S. Chávez-Cerda, J.R.Moya-Cessa, and H. Moya-Cessa, J. of the Opt. Soc. of Am. B 24, 404-407 (2007). ICO-21 2008

  18. ICO-21 2008

  19. Wigner function as a tool to evaluate divergente series H. Moya-Cessa and P.L. Knight, Phys. Rev. A 48, 2479-2481 (1993). Glauber displacement operator Roberto de Jesús León (INAOE) E. Martí Panameño (Puebla University) ICO-21 2008

  20. Abel: "Divergent series are on the whole devil's work, and it is a shame that one dares to found any proof on them. One can get out of them what one wants if one uses them, and it is they which have made so much unhappiness and so many paradoxes. Can one think of anything more appalling than to say that where m is a positive number. Here's something to laugh at, friends." ICO-21 2008

  21. ICO-21 2008

  22. ICO-21 2008

  23. Conclusions • It was shown the optical realization of the Lewis-Ermakov invariant and of the “quantum” beam splitter • The Wigner function was used to evaluate some divergent series. ICO-21 2008

More Related