Type(s) de contenu et mode(s) de consultation : Texte noté. Image fixe : électronique + Texte noté : électronique

Titre(s) : Laser spectroscopy for sensing [Texte électronique] : fundamentals, techniques and applications / edited by Matthieu Baudelet

Publication : Cambridge : Woodhead, 2014
Publication : Amsterdam : Woodhead Publishing, [2014]

Description matérielle : 1 ressource dématérialisée

Collection : Woodhead Publishing series in electronic and optical materials ; number 43

Note(s) : Includes bibliographical references and index

Autre(s) auteur(s) : Baudelet, Matthieu. Fonction indéterminée  Voir les notices liées en tant qu'auteur

Sujet(s) : Spectroscopie laser  Voir les notices liées en tant que sujet

Indice(s) Dewey :  621.366 (23e éd.) = Lasers  Voir les notices liées en tant que sujet

Identifiants, prix et caractéristiques : ISBN 9780857092731

Identifiant de la notice  : ark:/12148/cb446519642

Notice n° :  FRBNF44651964 (notice reprise d'un réservoir extérieur)

Table des matières : Machine generated contents note: 1. Fundamentals of optical spectroscopy ; 1.1. Introduction / P.J. Dagdigian ; 1.2. Radiative processes and spectral broadening mechanisms / P.J. Dagdigian ; 1.3. Atomic spectroscopy / P.J. Dagdigian ; 1.4. Molecular spectroscopy / P.J. Dagdigian ; 1.5. Conclusion / P.J. Dagdigian ; 1.6. Acknowledgments / P.J. Dagdigian ; 1.7. References / P.J. Dagdigian ; 2. Lasers used for spectroscopy: fundamentals of spectral and temporal control / P.J. Dagdigian ; 2.1. Introduction / L. Shah ; 2.2. Laser basics / L. Shah ; 2.3. Emission linewidth and emission cross-section / L. Shah ; 2.4. Cavity conditions / L. Shah ; 2.5. Spectral and temporal control / L. Shah ; 2.6. References / L. Shah ; 3. Fundamentals of spectral detection / L. Shah ; 3.1. Introduction / P. Werle ; 3.2. Selectivity requirements for sensing applications / P. Werle ; 3.3. Approaches to improve sensitivity / P. Werle ; 3.4. System stability and signal averaging / P. Werle.
Contents note continued: 3.5. Conclusion / P. Werle ; 3.6. References / P. Werle ; 4. Using databases for data analysis in laser spectroscopy / P. Werle ; 4.1. Introduction / A. Kramida ; 4.2. Definition of a database / A. Kramida ; 4.3. Atomic spectroscopy databases on the Internet / A. Kramida ; 4.4. Building your own database / A. Kramida ; 4.5. Putting your database online / A. Kramida ; 4.6. Conclusion / A. Kramida ; 4.7. Disclaimer / A. Kramida ; 4.8. References / A. Kramida ; 5. Multivariate analysis, chemometrics, and machine learning in laser spectroscopy / A. Kramida ; 5.1. Introduction / P. Torrione / L.M. Collins / K.D. Morton Jr ; 5.2. Preliminary notes: terminology and use of data / P. Torrione / L.M. Collins / K.D. Morton Jr ; 5.3. Feature extraction and data pre-processing / P. Torrione / L.M. Collins / K.D. Morton Jr ; 5.4. Data analysis and algorithm development: extracting information from data / P. Torrione / L.M. Collins / K.D. Morton Jr.
Contents note continued: 5.5. Performance evaluation / P. Torrione / L.M. Collins / K.D. Morton Jr ; 5.6. Conclusion / P. Torrione / L.M. Collins / K.D. Morton Jr ; 5.7. Future trends / P. Torrione / L.M. Collins / K.D. Morton Jr ; 5.8. Sources of further information and advice / P. Torrione / L.M. Collins / K.D. Morton Jr ; 5.9. Acknowledgments / P. Torrione / L.M. Collins / K.D. Morton Jr ; 5.10. References / P. Torrione / L.M. Collins / K.D. Morton Jr ; 6. Cavity-based absorption spectroscopy techniques / P. Torrione / L.M. Collins / K.D. Morton Jr ; 6.1. Introduction / B.J. Orr / Y. He ; 6.2. Enhancement of sensitivity in absorption spectroscopy / B.J. Orr / Y. He ; 6.3. Gas-phase cavity-ringdown spectroscopy (CRDS) and related methods / B.J. Orr / Y. He ; 6.4. Other forms of gas-phase CRDS and related cavity-based techniques / B.J. Orr / Y. He ; 6.5. Scope of cavity-based spectroscopy: progress and prospects / B.J. Orr / Y. He ; 6.6. Conclusion / B.J. Orr / Y. He.
Contents note continued: 6.7. References / B.J. Orr / Y. He ; 7. Photo-acoustic spectroscopy / B.J. Orr / Y. He ; 7.1. Introduction / A.A. Kosterev ; 7.2. Fundamental sensitivity limitations / A.A. Kosterev ; 7.3. General considerations for photo-acoustic spectroscopy (PAS) based sensing / A.A. Kosterev ; 7.4. Practical design of photo-acoustic detectors: gas phase / A.A. Kosterev ; 7.5. Impact of energy transfer processes / A.A. Kosterev ; 7.6. Conclusion / A.A. Kosterev ; 7.7. References / A.A. Kosterev ; 7.8. Appendix: abbreviations / A.A. Kosterev ; 8. Laser-induced fluorescence spectroscopy (LIF) / A.A. Kosterev ; 8.1. Introduction / T.C. Corcoran ; 8.2. Lasers and coherence / T.C. Corcoran ; 8.3. Spectral resolution / T.C. Corcoran ; 8.4. Temporal resolution / T.C. Corcoran ; 8.5. Laser-induced fluorescence (LIF) imaging and spatial resolution / T.C. Corcoran ; 8.6. LIF sensitivity / T.C. Corcoran ; 8.7. Conclusion and future trends, / T.C. Corcoran.
Contents note continued: 8.8. Sources of further information and advice / T.C. Corcoran ; 8.9. References / T.C. Corcoran ; 9. Laser-induced phosphorescence spectroscopy: development and application of thermographic phosphors (TP) for thermometry in combustion environments / T.C. Corcoran ; 9.1. Introduction / M. Aldén / M. Richter / A. Omrane / G. Särner ; 9.2. Thermometry methods using thermographic phosphors (TP) / M. Aldén / M. Richter / A. Omrane / G. Särner ; 9.3. Applications of TP / M. Aldén / M. Richter / A. Omrane / G. Särner ; 9.4. Conclusion and future trends / M. Aldén / M. Richter / A. Omrane / G. Särner ; 9.5. Acknowledgements / M. Aldén / M. Richter / A. Omrane / G. Särner ; 9.6. References / M. Aldén / M. Richter / A. Omrane / G. Särner ; 10. Lidar (light detection and ranging) / M. Aldén / M. Richter / G. Särner / A. Omrane ; 10.1. Introduction / D.K. Killinger ; 10.2. Atmospheric spectroscopy 4rl1 attenuation properties / D.K. Killinger.
Contents note continued: 10.3. Lidar equation and remote sensing sensitivity / D.K. Killinger ; 10.4. Different lidar types / D.K. Killinger ; 10.5. Lidar remote sensing examples / D.K. Killinger ; 10.6. Conclusion and future trends / D.K. Killinger ; 10.7. References / D.K. Killinger ; 11. Photothermal spectroscopy / D.K. Killinger ; 11.1. Introduction / M.A. Proskurnin ; 11.2. Principles of photothermal spectroscopy / M.A. Proskurnin ; 11.3. Methods of photothermal spectroscopy / M.A. Proskurnin ; 11.4. Flow photothermal detectors / M.A. Proskurnin ; 11.5. Photothermal spectroscopy in applied chemistry / M.A. Proskurnin ; 11.6. Photothermal spectroscopy of solids and interfaces / M.A. Proskurnin ; 11.7. Biophotothermal spectroscopy / M.A. Proskurnin ; 11.8. Conclusion and future trends / M.A. Proskurnin ; 11.9. References / M.A. Proskurnin ; 12. Terahertz (THz) spectroscopy / M.A. Proskurnin ; 12.1. Introduction: the historical 'terahertz gap' / M.J. Fitch.
Contents note continued: 12.2. Terahertz (THz) systems based on ultrafast lasers / M.J. Fitch ; 12.3. Terahertz sources and detectors / M.J. Fitch ; 12.4. Applications of terahertz spectroscopy / M.J. Fitch ; 12.5. Other terahertz applications / M.J. Fitch ; 12.6. Conclusion and sources of further information / M.J. Fitch ; 12.7. Acknowledgments / M.J. Fitch ; 12.8. References / M.J. Fitch ; 13. Laser spectroscopy for the detection of chemical, biological and explosive threats / M.J. Fitch ; 13.1. Introduction / S.D. Christesen / A.W. Fountain III / W.F. Pearman / T.H. Chyba / J.A. Guicheteau ; 13.2. Laser-induced breakdown spectroscopy (LIBS) / S.D. Christesen / A.W. Fountain III / J.A. Guicheteau / T.H. Chyba / W.F. Pearman ; 13.3. Fluorescence / S.D. Christesen / T.H. Chyba / J.A. Guicheteau / A.W. Fountain III / W.F. Pearman ; 13.4. Raman / J.A. Guicheteau / A.W. Fountain III / S.D. Christesen / T.H. Chyba / W.F. Pearman.
Contents note continued: 13.5. Conclusion / J.A. Guicheteau / A.W. Fountain III / S.D. Christesen / T.H. Chyba / W.F. Pearman ; 13.6. References / S.D. Christesen / A.W. Fountain III / J.A. Guicheteau / T.H. Chyba / W.F. Pearman ; 14. Laser spectroscopy for medical applications / J.A. Guicheteau / A.W. Fountain III / S.D. Christesen / T.H. Chyba / W.F. Pearman ; 14.1. Introduction to spectroscopy / S. Svanberg ; 14.2. Energy levels in atoms, molecules and solid-state materials / S. Svanberg ; 14.3. Radiation processes / S. Svanberg ; 14.4. Absorption and emission spectra / S. Svanberg ; 14.5. Interplay between absorption and scattering in turbid media / S. Svanberg ; 14.6. Absorption and scattering spectroscopy of tissue / S. Svanberg ; 14.7. Fluorescence spectroscopy / S. Svanberg ; 14.8. Raman spectroscopy / S. Svanberg ; 14.9. Gas in scattering media absorption spectroscopy (GASMAS) / S. Svanberg ; 14.10. Conclusion and future trends / S. Svanberg.
Contents note continued: 14.11. Acknowledgments / S. Svanberg ; 14.12. References / S. Svanberg ; 15. Applications of laser spectroscopy in forensic science / S. Svanberg ; 15.1. Introduction / C.N. Rinke-Kneapler / M.E. Sigman ; 15.2. Research applications of laser techniques: laser-induced fluorescence (LIF) / M.E. Sigman / C.N. Rinke-Kneapler ; 15.3. Research applications of laser techniques: laser-induced breakdown spectroscopy (LIBS) / C.N. Rinke-Kneapler / M.E. Sigman ; 15.4. Research applications of laser techniques: Raman / C.N. Rinke-Kneapler / M.E. Sigman ; 15.5. Conclusion / C.N. Rinke-Kneapler / M.E. Sigman ; 15.6. References / C.N. Rinke-Kneapler / M.E. Sigman ; 16. Application of laser-induced breakdown spectroscopy to the analysis of secondary materials in industrial production / C.N. Rinke-Kneapler / M.E. Sigman ; 16.1. Introduction / J.D. Pedarnig ; 16.2. Laser-induced breakdown spectroscopy (LIES) analysis of industrial materials / J.D. Pedarnig.
Contents note continued: 16.3. LIES of secondary materials in industrial production / J.D. Pedarnig ; 16.4. Conclusion and future trends / J.D. Pedarnig ; 16.5. Acknowledgments / J.D. Pedarnig ; 16.6. References / J.D. Pedarnig ; 17. Applications of laser spectroscopy in nuclear research and industry / J.D. Pedarnig ; 17.1. Introduction / A. Pailloux / P. Mauchien / T. Vercouter ; 17.2. Interest of laser spectroscopy for sensing in nuclear research and industry / P. Mauchien / A. Pailloux / T. Vercouter ; 17.3. Laser-induced breakdown spectroscopy (LIES) for in situ analysis and material identification / P. Mauchien / A. Pailloux / T. Vercouter ; 17.4. Cavity ringdown spectroscopy for ultratrace analysis in gaseous samples / P. Mauchien / A. Pailloux / T. Vercouter ; 17.5. Time-resolved laser-induced fluorescence (LIF) for analysis and speciation of actinides / P. Mauchien / A. Pailloux / T. Vercouter.
Contents note continued: 17.6. Conclusion and future trends / P. Mauchien / A. Pailloux / T. Vercouter ; 17.7. References / P. Mauchien / A. Pailloux / T. Vercouter.