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E-book

Title Frontiers and advances in molecular spectroscopy / edited by Jaan Laane
Published Amsterdam, Netherlands : Elsevier, 2018
©2018

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Description 1 online resource (788 pages) : illustrations
Contents Front Cover; Frontiers and Advances in Molecular Spectroscopy; Copyright; Contents; Contributors; Preface; Chapter 1: Stark-Induced Adiabatic Passage Processes to Selectively Prepare Vibrationally Excited Single and Superpositio ...; 1. Introduction; 1.1. How Can a Large Ensemble of Molecular Targets be Prepared in a Selected Highly Vibrationally Excited Quantum State W ...; 2. Theory of Stark-Induced Adiabatic Raman Passage; 2.1. Schrödinger Equation for Stimulated Raman Pumping; 2.2. Density Matrix Equation; 2.3. Saturation of Raman Pumping in a High-Pressure Gas Cell
2.4. Bloch Vector Model for Stark-Induced Adiabatic Passage2.5. Rabi Oscillations; 2.6. Coherent Population Return is a Problem for Stark-Induced Population Transfer; 2.7. How Do We Accomplish Stark-Induced Adiabatic Passage Using Pulsed Excitation?; 3. Theoretical Simulation of SARP for H2 v=0v=1 Transitions; 3.1. SARP is a Threshold Phenomenon; 4. Experimental Demonstration of SARP Preparing Single and Superpositions of Quantum States; 4.1. Preparation of a Bi-Axial Superposition State Within a Single Rovibrational H2 (v=1, J=2) Eigenstate
4.2. Demonstration That SARP is a Robust Technique for Preparing a Desired Rovibrational M-Quantum State5. SARP Excitation of a High Vibrational (v=4) Level; 6. Vibrational Ladder Climbing Using Multicolor SARP; 6.1. How Do We Prepare A Diatomic Molecule in An Arbitrary High Vibrational Level?; 6.2. Theory of Four-Photon Three-Color SARP; 6.3. Vibrational Ladder Climbing of H2 Using Three-Color SARP; 6.4. Preparation of H2 (v=6, J=0) Using Three-Color SARP; 6.5. Preparation of a Pair of Loosely Bound H Atoms Using Four-Color Ladder SARP; 7. Other Related Adiabatic Passage Processes
7.1. Stimulated Raman Adiabatic Passage7.2. High Vibrational Excitation Using STIRAP; 7.3. Multicolor STIRAP to Prepare High Vibrational States; 7.4. Stark-Chirped Rapid Adiabatic Passage; 8. Concluding Remarks; Acknowledgments; References; Chapter 2: Advances in Two-Dimensional Correlation Spectroscopy (2DCOS); 1. Introduction; 2. Generalized 2D Correlation Analysis; 2.1. Perturbation-Induced Dynamic Spectra; 2.2. 2D Correlation Analysis of Dynamic Spectra; 2.3. Matrix Notation for 2DCOS; 2.4. Unevenly Sampled Dynamic Spectra; 3. Interpreting 2D Correlation Spectra
3.1. Simulated Model Spectra3.2. Properties of Synchronous Spectrum; 3.3. Properties of Asynchronous Spectrum; 4. Illustrative Example of 2DCOS Application; 5. Advanced Tools in 2DCOS; 5.1. Heterocorrelation Analyses; 5.2. Moving Window 2D Correlation; 5.3. Two-Dimensional Codistribution (2DCDS) Analysis; 5.4. Pareto Scaling; 5.5. Null-Space Projection; 6. Conclusions; References; Chapter 3: Applications of 2D-IR Spectroscopy to Probe the Structural Dynamics of DNA; 1. Introduction; 2. Methodology; 2.1. Obtaining 2D-IR Spectra; 2.2. Spectral Assignment of DNA 2D-IR Spectra
Bibliography Includes bibliographical references at the end of each chapters and index
Subject Molecular spectroscopy.
SCIENCE / Chemistry / Analytic.
Molecular spectroscopy
Form Electronic book
Author Laane, Jaan, editor
LC no. 2018300724
ISBN 0128112212
9780128112212