Laser Spectroscopy (536 phys)
- Bohr's atom; Vector atom models; Space, spin quantization; Fine structure of one electron, two electrons and many electrons systems; L-S and j-j coupling; Zeeman effect; Low and high magnetic fields; Stark effect;
- Electronic, vibrational and rotational energy levels; Electronic configuration of simple molecules;Vibrational modes; P.Q.R. branches of rotational transition;
- Fluorescence, phosphoresce; Frank, Candon factors; Raman effect.
- Tunable lasers; Spectral and temporal tuning; Raman lasers; CARS; Horses; Harmonic and parametric oscillators; Picosecond, continuum, femtosecond spectroscopy; LIBS, PAS, Rydbergestates; Photogalvanic, multiphoton spectroscopy; High resolution spectroscopy; Lamb dip and saturation spectra; Laser cooling.
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