User:Benjah-bmm27/degree/3/MNRA

=Lasers and photochemistry, MNRA=

Level 1

 * Level 1 Quantum Ideas, AJOE
 * Level 1 Spectroscopy, MNRA

Level 2

 * Level 2 Photochemistry, AJOE
 * Level 2 Quantum Concepts, FRM
 * Level 2 Understanding Structure and Reactivity, Part 1 (molecular orbitals), NLA

Level 3

 * Level 3 Molecular Electronic Structure, JNH
 * Level 3 Molecular Spectroscopy and Structure, CMW
 * Level 3 Group theory, JPHC
 * Level 3 Advanced Inorganic Spectroscopy, CJA

Overviews

 * Lasers
 * Laser science

Laser construction and operation

 * Laser construction
 * Population inversion
 * Active laser medium
 * Optical cavity

Modes of operation

 * Continuous wave
 * Q-switching
 * Gain-switching
 * Mode-locking

Types of laser

 * Dye lasers: rhodamine 6G
 * Chemical lasers: chemical oxygen iodine lasers, all gas-phase iodine lasers, hydrogen fluoride lasers, gas dynamic lasers
 * Gas lasers: carbon dioxide laser, helium–neon laser, nitrogen laser, ion lasers
 * Excimer lasers: krypton fluoride laser
 * Solid-state lasers: YAG laser, Er:YAG laser, ruby laser
 * Laser diodes
 * Free electron lasers
 * Raman lasers

Applications of lasers

 * Laser spectroscopy
 * Raman spectroscopy
 * Laser-induced breakdown spectroscopy
 * Photofragment-ion imaging
 * H Rydberg Atom Photofragment Translational Spectroscopy at Bristol
 * Photochemistry
 * Photoionization mode
 * Laser-induced fluorescence
 * Photodissociation
 * Predissociation
 * Atmospheric chemistry: Level 2 DES notes, photochemical smog, Sherry Rowland
 * Femtochemistry
 * Laser ablation, laser cutting, laser surgery, laser engraving, laser bonding, LIDAR, laser propulsion

Pulsed laser ablation, PLA

 * Pulsed laser ablation
 * Pulsed laser deposition