Wavelength-modulation Raman Spectroscopy and Its Applications to the Study of Lithium Iodate |
From inside the book
Try this search over all volumes: igure
Results 1-0 of 0
Contents
DERIVATIVE RAMAN SPECTROMETER | 4 |
THERMAL PROPERTIES AND THE RAMAN SPECTRUM OF LITHIUM | 30 |
Effects of Impurities | 34 |
6 other sections not shown
Common terms and phrases
a-phase amplitude applied voltage B-phase background C. L. Tang calculated cavity Chapter chart recorder cm/statvolt coefficients of urea constant crystal structure derivative Raman spectrometer described detected electric field electro-optic coefficients electro-optic material electro-optically tunable electro-optically tuned dye electronic element tuner Eloc etalon experimental set-up fluorescence free spectral range gaseous given in reference gives impurities index ellipsoid ionic ions joule heating Keff laser beam lattice lens LIA2 light beam linewidth lithium iodate lock-in amplifier measure the electro-optic microns monochromator output phase transition phonon photodiode photon Phys polarization r41 measurement Raman line Raman mode Raman signal Raman spectroscopy Raman spectrum refraction sample scanned scattered light shot noise shown in Figure signal laser sinē single-mode small shifts spatial hole burning spectral line Stokes shift temperature increase temperature shift theoretical thermal transition temperature tuned dye laser values vibration voltage wavelength x-axis zero crossing