Handbook of Laser Technology and Applications: PrinciplesColin E. Webb, Julian D. C. Jones |
Contents
C2 Optical pulse generation 1247 | 1559 |
PRINCIPLES | 1560 |
Ultrashort pulses 1273 | 1689 |
C3 Frequency conversion and filtering 1313 | 1948 |
C3 Frequency conversion and filtering 1313 | 1948 |
ophthalmology | 1999 |
PART A PRINCIPLES 1 | 2009 |
thermal treatment of tumours | 2037 |
Smart pixel technologies and optical interconnects | 2363 |
D5 Optical information storage | 2389 |
Lasers in printing | 2421 |
D6 Spectroscopy | 2463 |
Ion trapping and laser applications to length and time metrology | 2485 |
Timeresolved spectroscopy | 2507 |
| 2529 | |
Lidar for atmospheric ozone remote sensing | 2563 |
lasers in vascular surgery | 2055 |
freeelectron laser | 2075 |
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 |
| 2579 | |
holographic optical elements and computergenerated | 2625 |
D10 Highintensity lasers for plasma studies | 2643 |
Highpower lasers and the extreme conditions that they can produce | 2657 |
| 2686 | |
| 2704 | |
| 2715 | |
Other editions - View all
Handbook of Laser Technology and Applications: Principles Colin E. Webb,Julian D. C. Jones Limited preview - 2004 |
Handbook of Laser Technology and Applications: Principles Colin E. Webb,Julian D. C. Jones Limited preview - 2004 |
Common terms and phrases
ablation absorption achieved amplifier aperture applications array atoms bandwidth cell channels chromatic dispersion CO2 laser coefficient components cutting data rate density detection detector device diameter diffraction diode laser dispersion Doppler drilling effects electronic energy equation example excimer laser fiber fluorescence frequency Gbit Gbit s-1 Gbit są heterodyne hole hydrophone IEEE intensity interaction interferometer irradiance laser beam laser diodes laser pulse laser safety laser source layer lens Lett light material measurement mirror mode modulation multiplexing Nd:YAG laser noise operating optical fibre optical system output parameters particle phase photoconductor photodetector photodiode photodynamic therapy photon Phys pixel polarization Proc propagation radiation Raman Raman scattering range reflected refractive index resolution scanning direction scattering sensors shown in figure signal speckle spectral spectroscopy speed SPIE surface target technique Technol temperature thermal tissue transmission typically VCSEL velocity vibration vibrometer waveguide wavelength