Biomedical Applications of Free-electron Lasers: 22 January 2000, San Jose, California |
Contents
source characteristics and scientific opportunities | 8 |
Applications of the Jefferson Lab freeelectron laser for photobiology 392509 | 40 |
Can freeelectron lasers answer critical questions in ultraviolet photobiology? 392510 | 50 |
Copyright | |
3 other sections not shown
Common terms and phrases
ablation efficiency absorbed absorption coefficient absorption spectra action spectra Applications of Free-Electron average power band beamline biological biological tissue Biomedical Applications biomolecules bonds Bowman's layer breaking strength calculated cell cholesteryl oleate coherent corneal crystal damage Demo detector DUV-FEL electron beam ester excited experimental experiments exposure FELs Figure fluorescence Free Electron Laser FTIR holography infrared Instr intensity irradiation Jacobsen Kirz laser ablation laser energy Lasers Surg LASIK lasing LCLS light source linac macropulse measured melanoma microns molecular molecules monochromatic x-ray myoglobin Nucl optical absorption peak photobiology photons Phys Physics POPOP probe protein pulse energy pump pump/probe range repetition rate sample SASE signal soft x-ray specimen spectroscopy spectrum SPIE Vol storage ring structure Super-ACO Sutherland synchrotron radiation temperature threshold fluence tissue tomography triplet tunable ultraviolet undulator Vanderbilt Vanderbilt University vibrational wavelength weld x-ray holography x-ray microscopy