05700nam 2200745Ia 450 991082124930332120200520144314.01-281-93577-89786611935771981-279-537-5(CKB)1000000000537845(EBL)1679320(SSID)ssj0000098997(PQKBManifestationID)11114018(PQKBTitleCode)TC0000098997(PQKBWorkID)10017393(PQKB)10745834(MiAaPQ)EBC1679320(WSP)00005188(Au-PeEL)EBL1679320(CaPaEBR)ebr10255880(OCoLC)879023405(EXLCZ)99100000000053784519850814d2003 uy 0engurbuu|||uu|||txtccrAdvances in multi-photon processes and spectroscopyVolume 15 /edited by S. H. Lin, A. A. Villaeys, Y. Fujimura1st ed.Singapore World Scientificc20031 online resource (383 p.)Advances in multi-photon processes and spectroscopy ;v. 15Description based upon print version of record.981-238-263-1 Includes bibliographical references.Preface; Contents; Part One: Polarizabilities and Hyperpolarizabilities of Dendritic Systems; Polarizabilities and Hyperpolarizabilities of Dendritic Systems; Abstract; 1. Introduction; 2. Polarizabilities and Hyperpolarizabilities of Dendritic Aggregate Systems; 2.1. Aggregate Models; 2.2. Density Matrix Formalism for Molecular Aggregate under Time-Dependent Electric Field; 2.3. Nonperturbative (Hyper)polarizabilities and Their Partition into the Contribution of Exciton Generation; 2.4. Off-Resonant Polarizabilities of Dendritic Aggregates2.5. Off-Resonant Second Hyperpolarizabilities of Dendritic Aggregates 2.6. Near-Resonant Second Hyperpolarizabilities of Dendritic Aggregates; 2.7. Summary; 3. Polarizabilities and Hyperpolarizabilities of Dendrimers; 3.1. Cayley-Tree-Type Dendrimers with TT-Conjugation; 3.2. Finite-Field Approach to Static (Hyper)polarizabilities; 3.3. Hyperpolarizability Density Analysis; 3.4. Size Dependencies of a and yof Oligomer Models for Dendron Parts; 3.5. Second Hyperpolarizabilities of Cayley-Tree-Type Phenylacetylene Dendrimers; 3.6. Summary; 4. Extensions of Models and Analysis4.1. Master Equation Approach Involving Explicit Exciton-Phonon Coupling 4.2. Analytical Expression of Hyperpolarizability Density; 4.3. Summary; 5. Concluding Remarks; Acknowledgments; References; Part Two: Molecules in Intense Laser Fields: Nonlinear Multiphoton Spectroscopy and Near-Femtosecond To Sub-Femtosecond (Attosecond) Dynamics; Molecules In Intense Laser Fields: Nonlinear Multiphoton Spectroscopy And Near-Femtosecond To Sub-Femtosecond (Attosecond) Dynamics; 1 Introduction; 2 Numerical Methods; 3 Charge Resonance Enhanced Ionization and Quasistatic Models: One-Electron Systems4 Two-Electron Systems 5 Adiabatic State Formalism; 6 Adiabatic State Population Analysis; 7 Transfer Matrix Formalism; 8 High-Frequency Limit; 9 Conclusion; Acknowledgments; References; Part Three: Ultrafast Dynamics and non-Markovian Processes in Four-Photon Spectroscopy; Ultrafast Dynamics and non-Markovian Processes in Four-Photon Spectroscopy; 1 Introduction; 2 Hamiltonian of chromofore molecule in solvent and basic methods of the resonance four-photon spectroscopy; 3 Calculation of nonlinear polarization; 4 Stochastic models in transient RFPS4.1 Non-Markovian relaxation effects in two-pulse RFPS with Gaussian random modulation of optical transition frequency 4.2 Transient four-photon spectroscopy of near or overlapping resonances in the presence of spectral exchange; 4.3 Non-Markovian relaxation effects in three-pulse RFPS; 5 Non-Markovian theory of steady-state RFPS; 5.1 Introduction and the cubic susceptibility in the case of Gaussian-Markovian random modulation of an electronic transition; 5.2 Model for frequency modulation of electronic transition of complex molecule in solution5.3 Cubic susceptibility for detunings larger than reciprocal correlation timeIn view of the rapid growth in both experimental and theoretical studies of multi-photon processes and multi-photon spectroscopy of atoms, ions and molecules in chemistry, physics, biology, materials science, etc., it is desirable to publish an advanced series of volumes containing review papers that can be read not only by active researchers in these areas, but also by those who are not experts but who intend to enter the field. The present series aims to serve this purpose. Each review article is written in a self-contained manner by the expert(s) in the area, so that the reader can graspAdvances in Multi-Photon Processes and SpectroscopyMulti-photon processes and spectroscopyLaser spectroscopyMolecular spectraMultiphoton processesSpectrum analysisLaser spectroscopy.Molecular spectra.Multiphoton processes.Spectrum analysis.543.0858Lin S. H(Sheng Hsien),1937-48831Villaeys A. A1630533Fujimura Y(Yuichi)321391MiAaPQMiAaPQMiAaPQBOOK9910821249303321Advances in multi-photon processes and spectroscopy3968899UNINA