Contributors to this volume focus on the fundamentals of the technique of analyzing material based on the atomic weight of the species, using the power and definition of lasers to enable measurement of smaller quantities and more finely localized particles. Each chapter deals with a particular application area and should be sufficient to form an entry point for the utilization of mass spectrometry by graduate students and researchers. The book provides the first full discussion of the new techniques of laser applications in the field.
Contributors to this volume focus on the fundamentals of the technique of analyzing material based on the atomic weight of the species, using the power and definition of lasers to enable measurement of smaller quantities and more finely localized particles. Each chapter deals with a particular application area and should be sufficient to form an entry point for the utilization of mass spectrometry by graduate students and researchers. The book provides the first full discussion of the new techniques of laser applications in the field.
C.H. Chen et al : Isotopically selective counting of atoms and molecules using resonance ionization spectroscopy; J.E. Parks: Surface analysis using resonance ionization spectroscopy; C.H. Becker: The analysis of inorganic and organic surfaces by ionization of desorbed neutrals with untuned ultraviolet and vacuum ultraviolet lasers; N.S. Nogar & R.C. Estler: Laser desorption/laser ablation with detection by resonance ionization mass spectrometry; R.W. Odom & B. Schueler: Laser microprobe mass spectrometry; J.J. Morelli: Laser micro mass spectrometry for direct analysis of coal macerals; D.P. Land t al: Post-ionization of laser-desorbed neutrals for the analysis of molecular adsorbates on surfaces; P. Arrowsmith: Applications of laser ablation; K.R. Hess & W.W. Harrison: Laser ablation and ionization studies in a glow discharge; W. Emary et al: Lasers for the generation and excitation of ions in tandem mass spectrometry; R.R. Weller et al: Combining lasers with Fourier transform ion cyclotron resonance mass spectrometry; M.P. Chiarelli & M.L. Gross: Lasers and Fourier transform mass spectrometry; L.M. Nuwaysir & C.L. Wilkins: Lasers coupled with Fourier transform mass spectrometry; R.B. Cody et al : Applications of laser desorption/Fourier transform mass spectrometry to polymer and surface analysis; J. Shabanowitz & D.F. Hunt: Laser photodissociation on a tandem quadrupole Fourier-transform mass spectrometer; D.M. Lubman & L. Li: Resonant two-photon ionization spectroscopy of biological molecules in supersonic jets volatilized by pulsed laser desorption; M.S. de Vries et al : Analysis of organic molecules on surfaces; T.R. Rizzo & D.H. Levy: Multiphoton ionization spectroscopy of biologically related molecules in supersonic molecular beam; J.W. Hager & S.C. Wallace: Two-colour threshold photoionization spectroscopy of polyatomic molecules and clusters; T.A. Cool: Combustion species detection by resonance enhanced ionization; J.A. Syage: New developments in molecular detection by supersonic molecular beam, laser mass spectrometry; R.B. Opsal: Resolution and sensitivity in laser ionization mass spectrometry; S. Weeks et al: Multidimension, resonance enhanced multiphoton ionization time-of-flight mass spectrometry for characterizing environmental and biological samples for polycyclic aromatic compounds.
C.H. Chen et al : Isotopically selective counting of atoms and molecules using resonance ionization spectroscopy; J.E. Parks: Surface analysis using resonance ionization spectroscopy; C.H. Becker: The analysis of inorganic and organic surfaces by ionization of desorbed neutrals with untuned ultraviolet and vacuum ultraviolet lasers; N.S. Nogar & R.C. Estler: Laser desorption/laser ablation with detection by resonance ionization mass spectrometry; R.W. Odom & B. Schueler: Laser microprobe mass spectrometry; J.J. Morelli: Laser micro mass spectrometry for direct analysis of coal macerals; D.P. Land t al: Post-ionization of laser-desorbed neutrals for the analysis of molecular adsorbates on surfaces; P. Arrowsmith: Applications of laser ablation; K.R. Hess & W.W. Harrison: Laser ablation and ionization studies in a glow discharge; W. Emary et al: Lasers for the generation and excitation of ions in tandem mass spectrometry; R.R. Weller et al: Combining lasers with Fourier transform ion cyclotron resonance mass spectrometry; M.P. Chiarelli & M.L. Gross: Lasers and Fourier transform mass spectrometry; L.M. Nuwaysir & C.L. Wilkins: Lasers coupled with Fourier transform mass spectrometry; R.B. Cody et al : Applications of laser desorption/Fourier transform mass spectrometry to polymer and surface analysis; J. Shabanowitz & D.F. Hunt: Laser photodissociation on a tandem quadrupole Fourier-transform mass spectrometer; D.M. Lubman & L. Li: Resonant two-photon ionization spectroscopy of biological molecules in supersonic jets volatilized by pulsed laser desorption; M.S. de Vries et al : Analysis of organic molecules on surfaces; T.R. Rizzo & D.H. Levy: Multiphoton ionization spectroscopy of biologically related molecules in supersonic molecular beam; J.W. Hager & S.C. Wallace: Two-colour threshold photoionization spectroscopy of polyatomic molecules and clusters; T.A. Cool: Combustion species detection by resonance enhanced ionization; J.A. Syage: New developments in molecular detection by supersonic molecular beam, laser mass spectrometry; R.B. Opsal: Resolution and sensitivity in laser ionization mass spectrometry; S. Weeks et al: Multidimension, resonance enhanced multiphoton ionization time-of-flight mass spectrometry for characterizing environmental and biological samples for polycyclic aromatic compounds.
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