Advances in multi-photon processes and spectroscopy. Vol. 9 /

This text discusses recent research in multiphoton processes and spectroscopy. Topics examined by this volume include vibration spectroscopy of surfaces using the nonlinear optical process and the quantum theory of laser-driven spontaneous emission and superradiance.

Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Lin, S. H. (Sheng Hsien), 1937-, Villaeys, A. A., Fujimura, Y. (Yuichi)
Formato: Electrónico eBook
Idioma:Inglés
Publicado: Singapore ; London : World Scientific, ©1995.
Temas:
Fluorescence spectroscopy.
Multiphoton processes.
Molecular spectra.
Spectroscopie de fluorescence.
Processus à plusieurs photons.
Molécules > Spectre.
SCIENCE > Spectroscopy & Spectrum Analysis.
Acceso en línea:Texto completo
Tabla de Contenidos:
  • PREFACE; CONTENTS; PART ONE LINEAR AND NONLINEAR OPTICAL SPECTROSCOPY OF MOLECULES IN DISORDERED SYSTEMS; Linear and Nonlinear Optical Spectroscopy of Molecules in Disordered Systems; 1 Introduction; 2 Theoretical Basis of Various Optical Processes; 2.1 Density matrix treatment of the matter-radiation interaction; 2.2 Born-Oppenheimer approximation; 2.3 First-order optical processes; absorption and fluorescence spectroscopy; 2.4 Second-order optical processes; resonant light scattering and fluorescence processes; 2.4.1 Distinction between light scattering and fluorescence processes
  • 2.4.2 Density matrix treatment of second-order optical process2.4.3 Relationship between the first- and second-order optical processes; 2.5 Photon echo; 2.6 Time-resolved fluorescence spectroscopy; 3 Various Models; 3.1 Dynamical approach; 3.2 Stochastic approach; 3.2.1 Poisson modulation; 3.2.2 Gaussian-Markovian modulation; 3.3 Dynamical motion in strong coupling limit; 4 Experimental Approaches; 4.1 Various spectroscopic approaches to disordered system; 4.1.1 Characteristics of disordered system; 4.1.2 Absorption and fluorescence spectra
  • 4.1.3 Resonance light scattering and fluorescence spectra4.1.4 Photon echo; 4.1.5 Time-resolved fluorescence and transient hole-burning spectra; 4.2 Low-temperature spectroscopy; 4.2.1 Persistent hole-burning spectroscopy; 4.2.2 Accumulated photon echo; 4.2.3 Site-selective fluorescence spectroscopy; 5 Summary; Acknowledgements; References; PART TWO VIBRATION SPECTROSCOPY OF SURFACES USING NONLINEAR OPTICAL PROCESS; Vibration Spectroscopy of Surfaces using Nonlinear Optical Process: IR-visible Sum Frequency Generation Spectroscopy (VSFG); Chapter 1. INTRODUCTION
  • Investigation of Surface ReactionsChapter 5. RECENT DEVELOPMENTS AND FUTURE TRENDS; Concluding remarks; REFERENCES; PART THREE QUANTUM THEORY OF LASER-DRIVEN SPONTANEOUS EMISSION AND SUPERRADIANCE; Quantum Theory of Laser-Driven Spontaneous Emission and Superradiance; Introduction; Chapter 1. Collective Spontaneous Emission; 1. Superradiance in Classical Theory; 2. Collective spontaneous emission of the system confined in a volume smaller than a cubic wavelength; 3. Collective spontaneous emission in the cavity of resonator; 4. Large sample collective spontaneous emission (mean-field model)

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