Biomedical Applications of Free-electron Lasers: 22 January 2000, San Jose, California |
Contents
source characteristics and scientific opportunities | 8 |
Alterations of absorption coefficient of tissue water as a result of the heating under the IRFEL | 14 |
Transient absorption spectroscopy using the superACO storage ring FEL 392507 | 29 |
Copyright | |
8 other sections not shown
Common terms and phrases
ablation efficiency absorption coefficient absorption spectra action spectra atomic resolution imaging average power biological biological tissue Biomedical Applications biomolecules Bowman's layer calculated cell cholesteryl oleate coherence corneal damage Demo detector DUV-FEL effects electron beam erythema excited experimental experiments Figure fluorescence Free Electron Laser FTIR harmonic hologram holography induced infrared intensity irradiation J/cm² Jacobsen Kirz laser ablation laser energy Lasers Surg LASIK light source linac measured microns micropulse molecular molecules monochromatic Nucl operation optical absorption output peak photobiology photons Phys Physics POPOP probe beam protein pulse energy pump pump/probe range reference wave repetition rate sample signal singlet skin cancers soft x-ray solder specimen spectroscopy spectrum SPIE Vol storage ring structure Super-ACO Sutherland synchrotron radiation temperature thermal threshold fluence tissue tomography triplet tunable ultraviolet undulator urinary calculus vibrational visible wavelength wiggler x-ray holography x-ray laser x-ray microscopy