- Викладач: BRASSELET Sophie
- Викладач: CHAIGNE Thomas pierre ma
- Викладач: FADE Julien
- Викладач: LITMAN Amelie
This course is a lecture about light and lasers, providing comprehensive description of the physics underlying the operation of lasers.
After introducing the main physical processes responsible for light emission, this lecture develops a comprehensive treatment for the fundamental concepts of lasers physics and the basic operation principles. Spatial, temporal and coherence properties of laser light are also explored. Detailed example and tutorials are included.
1. Light emission
Historical context, thermal and blackbody emission, electromagnetism and quantum description
2. Photon-atom interaction.
Spontaneous and stimulated transitions, Einstein coefficients, levels populations, rate equations.
3. Light amplification
Conditions for amplification, pumping and population inversion, 2-level, 3-level and 4-level systems, gain and saturation.
4. The laser oscillator
Conditions for laser starting, resonant oscillation, steady-state regime, output intensity.
5. Laser cavities and laser beams
Longitudinal modes, cavity stability, transverses modes and Gaussian beams.
6. Pulsed regimes
Spiking, Q-switch, Modelock
7. Coherence properties of laser light
After introducing the main physical processes responsible for light emission, this lecture develops a comprehensive treatment for the fundamental concepts of lasers physics and the basic operation principles. Spatial, temporal and coherence properties of laser light are also explored. Detailed example and tutorials are included.
1. Light emission
Historical context, thermal and blackbody emission, electromagnetism and quantum description
2. Photon-atom interaction.
Spontaneous and stimulated transitions, Einstein coefficients, levels populations, rate equations.
3. Light amplification
Conditions for amplification, pumping and population inversion, 2-level, 3-level and 4-level systems, gain and saturation.
4. The laser oscillator
Conditions for laser starting, resonant oscillation, steady-state regime, output intensity.
5. Laser cavities and laser beams
Longitudinal modes, cavity stability, transverses modes and Gaussian beams.
6. Pulsed regimes
Spiking, Q-switch, Modelock
7. Coherence properties of laser light
- Викладач: SANNER Nicolas
- Викладач: NICOLET Andre
- Викладач: SORIANO Gabriel
- Викладач: ZOLLA Frederic
- Викладач: DUMAS Edyta
- Викладач: GUILLEM Nadege
- Викладач: LITMAN Amelie
- Викладач: NATOLI Jean yves
- Викладач: ROVESTI Carlotta
- Викладач: WAGNER Frank
- Викладач: BENNET Pauline
- Викладач: LITMAN Amelie
- Викладач: SORIANO Gabriel
Acquired competences
Students will develop proficiency in various mathematical techniques essential for optics and photonics applications, such as:
- Analyzing intensity patterns resulting from interference phenomena.
- Conducting basic electromagnetic analyses.
- Computing states of polarization arising from polarizing elements.
- Understanding mathematical underpinnings of Maxwell's equations.
- Grasping the significance of Fourier analysis, particularly its impact on domain transformations.
- Solving fundamental problems related to geometric optics.
Students will develop proficiency in various mathematical techniques essential for optics and photonics applications, such as:
- Analyzing intensity patterns resulting from interference phenomena.
- Conducting basic electromagnetic analyses.
- Computing states of polarization arising from polarizing elements.
- Understanding mathematical underpinnings of Maxwell's equations.
- Grasping the significance of Fourier analysis, particularly its impact on domain transformations.
- Solving fundamental problems related to geometric optics.
- Викладач: FERRAND Patrick
- Викладач: ALONSO GONZALEZ Miguel angel
- Викладач: AMRAM Philippe
- Викладач: BELKEBIR Kamal
- Викладач: BENNET Pauline
- Викладач: BONOD Nicolas
- Викладач: CHAIGNE Thomas pierre ma
- Викладач: CHOQUET Elodie
- Викладач: DEMESY Guillaume
- Викладач: DOLOCAN Voicu octavian
- Викладач: DUBESSY Romain
- Викладач: DUBOISSET Julien
- Викладач: DURT Thomas
- Викладач: ESCARGUEL Alexandre
- Викладач: ESCOUBAS Ludovic
- Викладач: FADE Julien
- Викладач: FERRAND Patrick
- Викладач: FERRE Amelie
- Викладач: GALLAIS-DURING Laurent
- Викладач: GUILLEM Nadege
- Викладач: HOUSSIN Marie
- Викладач: ILIOPOULOS Konstantinos
- Викладач: KUZMIN Michael
- Викладач: LE GOFF Loic
- Викладач: LEMARCHAND Fabien
- Викладач: LEMARQUIS Frederic
- Викладач: LITMAN Amelie
- Викладач: LUMEAU Julien
- Викладач: MAIRE Guillaume
- Викладач: MAVRAKIS Emmanouil
- Викладач: NATOLI Jean yves
- Викладач: NICOLET Andre
- Викладач: NONY Laurent
- Викладач: PIERI Matthew
- Викладач: RENVERSEZ Gilles
- Викладач: ROVESTI Carlotta
- Викладач: RUIZ HERRERO Carmen
- Викладач: SANNER Nicolas
- Викладач: SAVATIER Julien
- Викладач: SORIANO Gabriel
- Викладач: STOUT Brian
- Викладач: THEMLIN Jean-marc
- Викладач: THIRION Cecile
- Викладач: TOUDERT Johann
- Викладач: WAGNER Frank
- Викладач: ZOLLA Frederic
- Викладач: DUMAS Edyta
- Викладач: GUILLEM Nadege
- Викладач: LITMAN Amelie
- Викладач: NATOLI Jean yves
- Викладач: ROVESTI Carlotta
- Викладач: WAGNER Frank