SCC1054 - BASICS AND APPLICATIONS OF NON LINEAR AND QUANTUM OPTICS

INTRODUCTORY PART - Historical background and introduction to the main nonlinear optical phenomena; - Passive mode-locking techniques obtained by means of nonlinear processes; - Symmetry properties of the second- and third-order nonlinear susceptibilities; SECOND-ORDER NONLINEAR PROCESSES - Second-order nonlinear processes under plane-wave approximation: second-harmonic generation, sum-frequency generation, parametric amplification, spontaneous parametric down conversion, optical parametric oscillator; - Phase-matching conditions and generation in phase-mismatch conditions; - Generation of nonlinear processes by means of focused Gaussian beams; THIRD-ORDER NONLINEAR PROCESSES - Description of the intensity-dependent refractive index of the non-linear medium; - Processes resulting from the intensity-dependent refractive index: self-action effects, self-phase modulation, temporal solitons. ULTRAFAST OPTICS - Ultrafast and ultra-intense optics: nonlinear Schrödinger equation, white-light continuum and high-harmonic generation. QUANTUM OPTICS - Twin-beam states: spatio-spectral properties, photon-number statistics, nonclassicality criteria, and main applications. - Entangled states in polarization: Bell’s inequalities, quantum-state tomography, and main applications. - Squeezed states: photon-number statistics, state tomography, and main applications. LABORATORY ACTIVITIES The laboratory activities aim at directly observing and investigating some nonlinear and quantum optical phenomena, especially those related to second-order nonlinearity, already presented from the theoretical point of view. In fact, on the basis of the available laser sources and instruments, at least the following processes can be studied: - second-harmonic generation in collinear and non-collinear geometry: application to the measurement of short-pulse duration using the autocorrelation technique; - quantitative analysis of second-harmonic generation in phase-mismatch condition: - sum- and difference-frequency generation: study of the processes as functions of the polarization of the input optical fields; - spontaneous parametric down conversion (SPDC): generation of twin-beam states, analysis of their spatial and spectral properties and of their nonclassical nature, and quantitative investigation of some possible applications; - passive mode-locking technique: use of a laser source in which such a technique can be easily obtained and observed; - generation and characterization of white-light continuum.