Gaia
Optika kuantika aurreratua
Gaiari buruzko datu orokorrak
- Modalitatea
- Ikasgelakoa
- Hizkuntza
- Ingelesa
Irakasleak
Izena | Erakundea | Kategoria | Doktorea | Irakaskuntza-profila | Arloa | Helbide elektronikoa |
---|---|---|---|---|---|---|
BLANCO PILLADO, JOSE JUAN | Euskal Herriko Unibertsitatea | Ikerbaske Bisitaria | Doktorea | Elebakarra | Fisika Teorikoa | josejuan.blanco@ehu.eus |
NOVOA FERNANDEZ, DAVID | Euskal Herriko Unibertsitatea | Ikerbaske Bisitaria | Doktorea | Elebakarra | Seinalearen Teoria eta Komunikazioak | david.novoa@ehu.eus |
PALMERO LAZCOZ, MIKEL | Euskal Herriko Unibertsitatea | Irakaslego Atxikia (Laguntzaile Doktorea) | Doktorea | Elebiduna | Fisika Aplikatua | mikel.palmero@ehu.eus |
ZUBIA ZABALLA, JOSEBA ANDONI | Euskal Herriko Unibertsitatea | Unibertsitateko Katedraduna | Doktorea | Elebakarra | Seinalearen Teoria eta Komunikazioak | joseba.zubia@ehu.eus |
Gaitasunak
Izena | Pisua |
---|---|
Problemak askatzea | 70.0 % |
Gai teorikoen ezagutza eta aurkezteko gaitasuna | 15.0 % |
Gai zerrendan esplizituki agertzen ez den kuestio baten aurkezteko gaitasuna | 15.0 % |
Irakaskuntza motak
Mota | Ikasgelako orduak | Ikasgelaz kanpoko orduak | Orduak guztira |
---|---|---|---|
Magistrala | 24 | 32 | 56 |
Mintegia | 8 | 12 | 20 |
Gelako p. | 8 | 16 | 24 |
Ebaluazio-sistemak
Izena | Gutxieneko ponderazioa | Gehieneko ponderazioa |
---|---|---|
Ahozko azterketa | 50.0 % | 50.0 % |
Azalpenak | 15.0 % | 50.0 % |
Garatu beharreko galderak | 15.0 % | 70.0 % |
Lan praktikoak | 50.0 % | 50.0 % |
Ohiko deialdia: orientazioak eta uko egitea
En caso de que las condiciones sanitarias impidan la realización deuna evaluación presencial, se activará una evaluación no presencial de
la que será informado el alumnado puntualmente.
Irakasgai-zerrenda
- Quantum Coherence Functions. Classical coherence functions. Quantum coherence functions. Young’s interference. Higher-order coherence functions.- Nonclassical light. Quadrature squeezing. Generation of quadrature squeezed light. Detection of quadrature squeezed light. Amplitude (or number) squeezed states. Photon antibunching. Schrödinger cat states.
- Applications of entanglement. The entanglement advantage. Entanglement and interferometric measurements. Quantum teleportation. Cryptography. Private key crypto-systems. Public key crypto-systems. The quantum random number generator. Quantum cryptography.
- Introduction to light-matter interaction. Two-level atom + classical field: Rabi flopping. Damping mechanisms. Dressed states. Landau-Zener crossing. Bloch equations. Ramsey fringes, free induction decay, photon echo. Spectrum of resonance fluorescence...Three-level atom + classical field: Effective 2LA. Stimulated Raman transitions. Coherent population trapping.
- Advanced mathematical tools. Gaussian states and symplectic notation. Quantum Fisher information. Quantum parameter estimation. Codification of quantum information in photons.
- Quantum communication. Homodyne detection. Remote state preparation. Quantum teleportation (continuous & discrete variables). Satellite secure communication.
- Quantum computation with photonics. Discrete vs. continuous variables. Knill-Laflamme- Milburn protocol. Boson sampling.
- Quantum sensing. Heisenberg-limit interferometry. Quantum illumination and quantum radar.
Bibliografia
Oinarrizko bibliografia
Introduction to Quantum Optics, C.C. Gerry and P.L. Knight. Cambridge Univ. Press.Elements of Quantum Optics, P. Meystre and M. Sargent II. Springer.
Quantum Optics, D.F. Walls and G. J. Milburn. Springer.
Quantum and Atom Optics, D.A. Steck (notes).
Optical Resonance and Two-Level Atoms, L. Allen and J.H. Eberly. Wiley.
Lasers, J.H. Eberly and P. Milonni. Wiley.
Quantum Continuous Variables, A Primer of Theoretical Methods, A. Serafini. CRC Press, 2017.
Lectures on Quantum Information, D. Bruss and G. Leuch Eds., Wiley VCH Verlag, 2007.
The Quantum Illumination Story, J. H. Shapiro, ArXiv: 1910.12277 (2019).