Handbook of Laser Technology and Applications: ApplicationsColin E. Webb, Julian D. C. Jones CRC Press, 2004 - 2725 Seiten |
Inhalt
C2 Optical pulse generation 1247 | 1559 |
PRINCIPLES | 1560 |
B2 Laser diodes 523 | 1620 |
Ultrashort pulses 1273 | 1689 |
Basic principles of laser diodes 525 | 1780 |
C3 Frequency conversion and filtering 1313 | 1957 |
PART A PRINCIPLES 1 | 2009 |
thermal treatment of tumours | 2037 |
D5 Optical information storage | 2389 |
B3 Gas lasers 749 | 2421 |
Excimer F2 N2 and H2 lasers 791 | 2462 |
D6 Spectroscopy | 2463 |
Ion trapping and laser applications to length and time metrology | 2485 |
Timeresolved spectroscopy | 2507 |
D7 Earth and environmental sciences | 2529 |
Lidar for atmospheric ozone remote sensing | 2563 |
lasers in vascular surgery | 2055 |
freeelectron laser | 2075 |
Verticalcavity surfaceemitting lasers 659 | 2118 |
Laser applications in biology and biotechnology | 2123 |
Harmonic generationmaterials and methods 1315 | 2136 |
Biomedical laser safety | 2155 |
D4 Communications | 2181 |
Highcapacity optical transmission systems | 2231 |
Local area networks | 2289 |
development of vertical cavity surface emitting | 2321 |
Optical satellite communications | 2345 |
Semiconductor lasers and optical amplifiers for switching | 2358 |
Smart pixel technologies and optical interconnects | 2363 |
2577 | |
D8 Lasers in astronomy | 2579 |
Fibre lasers 963 | 2620 |
holographic optical elements and computergenerated | 2625 |
D10 Highintensity lasers for plasma studies | 2643 |
Highpower lasers and the extreme conditions that they can produce | 2657 |
2665 | |
2682 | |
2704 | |
2706 | |
Colin Webb | |
Häufige Begriffe und Wortgruppen
ablation absorption achieved acoustic amplitude angle Appl applications array Bragg grating camera CO2 laser coefficient components correlograms cutting deposition detection detector diameter diffraction diode diode laser effects Electron energy equation ESPI excimer laser exposure fiber fibre laser fibre optic Fibre Sensors film flow fluence frequency fringe gauge block heterodyne hole hydrophone illumination incident intensity interaction interferometer interrogation irradiation laser beam laser diode laser pulse laser vibrometer layer length lens Lett light material measurement metal modulation multiplexing Nd:YAG laser noise optical fibre output parameters particle particle image velocimetry phase Doppler photodetector photodynamic therapy photon photosensitizer Phys pixel plasma polarization polymers pressure Proc pulsed laser range reference beam refractive index resolution rotational scattering shown in figure signal spatial speckle pattern speed SPIE strain surface target technique Technol temperature thermal tissue typically vaporization velocimetry velocity vibration wavelength