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Multidimensional Optical Spectroscopy, 2 Volume Set

Multidimensional Optical Spectroscopy, 2 Volume Set

Shaul Mukamel

ISBN: 978-3-527-41234-1

Nov 2017

500 pages

Select type: Hardcover


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A first unified and systematic approach for the description of spectroscopy with optical pulses by a quantum treatment of the radiation field. To complement the derivations intuitive diagrammatic presentations of the results are included for easy understanding and application.
Volume 1:
1. Introduction
2. Quantum Dynamics in Hilbert and in Liouville Space
3. The Response of a Quantum System to Classical Fields
4. Optical Signals of a Quantum System Coupled to the Quantum Radiation Field
5. Stimulated (heterodyne detected) Multidimensional Four Wave Mixing Signals
6. Pump Probe Spectroscopy, CARS, and Dissipative Signals Given by Transition Amplitudes
7. Gated Time and Frequency Detection;
Photon Correlation and Counting Statistics
8. Gaussian Fluctuations; the Cumulant Expansion and the Multimode Brownian Oscillator Model
9. Multidimensional Stimulated-Raman Techniques
10. Nonlinear Response and Fluctuations of Classical Systems
11. Nonlinear Spectroscopy with Quantum Light

Volume 2:
12. Optical Signatures of Exciton Transport in Molecular Aggregates
13. Quasiparticle Description of Frenkel Excitons in Molecular Aggregates
14. Double-Quantum-Coherence and Electron Correlations
15. Chiral vs. Nonchiral Signals;
Manipulating 2D Signals by Coherent Control Pulse- Shaping Algorithms
16. Multidimensional Spectroscopy of Proteins;
2DIR and 2DUV
17. Coboson Representation of Multiple Electron Hole Pair Excitations;
Diagrammatic Approach
18. Attosecond X-ray Spectroscopy of Core Excitons
19. Many Electron Systems: TDHF and TDDFT
20. Superoperator Techniques Applied to Many-fermion and Many-Boson Systems