Andrew Ellis, Miklos Feher, Timothy Wright
Electronic and Photoelectron Spectroscopy
Fundamentals and Case Studies
Andrew Ellis, Miklos Feher, Timothy Wright
Electronic and Photoelectron Spectroscopy
Fundamentals and Case Studies
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This volume aims to provide a firm grounding in the principles and techniques employed in electronic and photoelectron spectroscopy.
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This volume aims to provide a firm grounding in the principles and techniques employed in electronic and photoelectron spectroscopy.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 302
- Erscheinungstermin: 5. August 2010
- Englisch
- Abmessung: 244mm x 170mm x 16mm
- Gewicht: 525g
- ISBN-13: 9780521520638
- ISBN-10: 0521520630
- Artikelnr.: 33222402
- Herstellerkennzeichnung
- Books on Demand GmbH
- In de Tarpen 42
- 22848 Norderstedt
- info@bod.de
- 040 53433511
- Verlag: Cambridge University Press
- Seitenzahl: 302
- Erscheinungstermin: 5. August 2010
- Englisch
- Abmessung: 244mm x 170mm x 16mm
- Gewicht: 525g
- ISBN-13: 9780521520638
- ISBN-10: 0521520630
- Artikelnr.: 33222402
- Herstellerkennzeichnung
- Books on Demand GmbH
- In de Tarpen 42
- 22848 Norderstedt
- info@bod.de
- 040 53433511
Preface; List of journal abbreviations; Part I. Foundations of Electronic and Photoelectron Spectroscopy: 1 Introduction; 2. Electronic structure; 3. Angular momentum in spectroscopy; 4. Classification of electronic states; 5. Molecular vibrations; 6. Molecular rotations; 7. Transition probabilities; Part II. Experimental Techniques: 8. The sample; 9. Broadening of spectroscopic lines; 10. Lasers; 11. Optical spectroscopy; 12. Photoelectron spectroscopy; Part III. Case Studies: 13. Ultraviolet photoelectron spectrum of CO; 14. Photoelectron spectra of CO2, OCS, and CS2 in a molecular beam; 15. Photoelectron spectrum of NO2
; 16. Laser-induced fluorescence spectroscopy of C3: rotational structure in the 300 nm system; 17. Photoionization spectrum of diphenylamine: an unusual illustration of the Franck-Condon principle; 18. Vibrational structure in the electronic spectrum of 1,4-benzodioxan: assignment of low frequency modes; 19. Vibrationally resolved ultraviolet spectroscopy of propynal; 20. Rotationally resolved laser excitation spectrum of propynal; 21. ZEKE spectroscopy of Al(H2O) and Al(D2O); 22. Rotationally resolved electronic spectroscopy of the NO free radical; 23. Vibrationally resolved spectroscopy of Mg+-rare gas complexes; 24. Rotationally resolved spectroscopy of Mg+-rare gas complexes; 25. Vibronic coupling in benzene; 26. REMPI spectroscopy of chlorobenzene; 27. Spectroscopy of the chlorobenzene cation; 28. Cavity ringdown spectroscopy of the a1
X3
g
transition in O2; Appendices; Index.
; 16. Laser-induced fluorescence spectroscopy of C3: rotational structure in the 300 nm system; 17. Photoionization spectrum of diphenylamine: an unusual illustration of the Franck-Condon principle; 18. Vibrational structure in the electronic spectrum of 1,4-benzodioxan: assignment of low frequency modes; 19. Vibrationally resolved ultraviolet spectroscopy of propynal; 20. Rotationally resolved laser excitation spectrum of propynal; 21. ZEKE spectroscopy of Al(H2O) and Al(D2O); 22. Rotationally resolved electronic spectroscopy of the NO free radical; 23. Vibrationally resolved spectroscopy of Mg+-rare gas complexes; 24. Rotationally resolved spectroscopy of Mg+-rare gas complexes; 25. Vibronic coupling in benzene; 26. REMPI spectroscopy of chlorobenzene; 27. Spectroscopy of the chlorobenzene cation; 28. Cavity ringdown spectroscopy of the a1
X3
g
transition in O2; Appendices; Index.
Preface; List of journal abbreviations; Part I. Foundations of Electronic and Photoelectron Spectroscopy: 1 Introduction; 2. Electronic structure; 3. Angular momentum in spectroscopy; 4. Classification of electronic states; 5. Molecular vibrations; 6. Molecular rotations; 7. Transition probabilities; Part II. Experimental Techniques: 8. The sample; 9. Broadening of spectroscopic lines; 10. Lasers; 11. Optical spectroscopy; 12. Photoelectron spectroscopy; Part III. Case Studies: 13. Ultraviolet photoelectron spectrum of CO; 14. Photoelectron spectra of CO2, OCS, and CS2 in a molecular beam; 15. Photoelectron spectrum of NO2
; 16. Laser-induced fluorescence spectroscopy of C3: rotational structure in the 300 nm system; 17. Photoionization spectrum of diphenylamine: an unusual illustration of the Franck-Condon principle; 18. Vibrational structure in the electronic spectrum of 1,4-benzodioxan: assignment of low frequency modes; 19. Vibrationally resolved ultraviolet spectroscopy of propynal; 20. Rotationally resolved laser excitation spectrum of propynal; 21. ZEKE spectroscopy of Al(H2O) and Al(D2O); 22. Rotationally resolved electronic spectroscopy of the NO free radical; 23. Vibrationally resolved spectroscopy of Mg+-rare gas complexes; 24. Rotationally resolved spectroscopy of Mg+-rare gas complexes; 25. Vibronic coupling in benzene; 26. REMPI spectroscopy of chlorobenzene; 27. Spectroscopy of the chlorobenzene cation; 28. Cavity ringdown spectroscopy of the a1
X3
g
transition in O2; Appendices; Index.
; 16. Laser-induced fluorescence spectroscopy of C3: rotational structure in the 300 nm system; 17. Photoionization spectrum of diphenylamine: an unusual illustration of the Franck-Condon principle; 18. Vibrational structure in the electronic spectrum of 1,4-benzodioxan: assignment of low frequency modes; 19. Vibrationally resolved ultraviolet spectroscopy of propynal; 20. Rotationally resolved laser excitation spectrum of propynal; 21. ZEKE spectroscopy of Al(H2O) and Al(D2O); 22. Rotationally resolved electronic spectroscopy of the NO free radical; 23. Vibrationally resolved spectroscopy of Mg+-rare gas complexes; 24. Rotationally resolved spectroscopy of Mg+-rare gas complexes; 25. Vibronic coupling in benzene; 26. REMPI spectroscopy of chlorobenzene; 27. Spectroscopy of the chlorobenzene cation; 28. Cavity ringdown spectroscopy of the a1
X3
g
transition in O2; Appendices; Index.