Physical Methods of Chemistry: Determination of chemical composition and molecular structure (pt. A-B)

absorbed absorption activation analysis Anal analyte applications atomic background band beam beam splitter cell Chem chemical cm¹ components compounds continuum crystal decay density detector determined dimensionless electron elements emission emitted energy example excitation Figure flame flicker noise fluorescence flux frequency gamma Ge(Li INAA infrared infrared spectroscopy instruments intensity interaction interferometer ion source ionization irradiation isotopic J. R. Durig laser linear liquid mass spectrometer matrix measured method microwave microwave spectroscopy mode molecular molecule neutron Neutron Activation Analysis nuclear nucleus nuclide obtained optical particles peak photons photopeak Phys plasma produced pulse quadrupole radiation radioactive radioactive decay radiochemical radionuclide Raman spectroscopy range ratio rays reaction reactor resolution rotational sample scanning shot noise signal solution species spectra spectrum standard Stark effect symmetric rotor symmetry Table technique temperature thermal thermal neutrons thermal-neutron transitions tube typical values vapor vibrational voltage wavelength WAVENUMBER X-ray y-ray photon