Format:
Online-Ressource (X, 512 p. 191 illus, digital)
Edition:
1. student ed.
ISBN:
9783540375425
Content:
Gives explanations of the theory of optical spectroscopic phenomena and shows how these ideas are used in modern molecular and cellular biophysics and biochemistry. This book covers topics such as electronic and vibrational absorption, fluorescence, resonance energy transfer, exciton interactions, circular dichroism, and coherence and dephasing
Note:
CONTENTS; 1 Introduction; 1.1 Overview; 1.2 The Beer-Lambert Law; 1.3 Regions of the Electromagnetic Spectrum; 1.4 Absorption Spectra of Proteins and Nucleic Acids; 1.5 Absorption Spectra of Mixtures; 1.6 The Photoelectric Effect; 1.7 Techniques for Measuring Absorbance; 1.8 Pump-Probe and Photon-Echo Experiments; 1.9 Linear and Circular Dichroism; 1.10 Distortions of Absorption Spectra by Light Scatteringor Nonuniform Distributions of the Absorbing Molecules; 1.11 Fluorescence; 1.12 IR and Raman Spectroscopy; 1.13 Lasers; 1.14 Nomenclature; 2 Basic Concepts of Quantum Mechanics
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2.1 Wavefunctions, Operators, and Expectation Values2.2 The Time-Dependentand Time-Independent Schrödinger Equations; 2.3 Spatial Wavefunctions; 2.4 Spin Wavefunctions and Singlet and Triplet States; 2.5 Transitions Between States: Time-Dependent Perturbation Theory; 2.6 Lifetimes of States and the Uncertainty Principle; 3 Light; 3.1 Electromagnetic Fields; 3.2 The Black-Body Radiation Law; 3.3 Linear and Circular Polarization; 3.4 Quantum Theory of Electromagnetic Radiation; 3.5 Superposition States and Interference Effects in Quantum Optics
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3.6 Distribution of Frequencies in Short Pulses of Light4 Electronic Absorption; 4.1 Interactions of Electrons with Oscillating Electric Fields; 4.2 The Rates of Absorption and Stimulated Emission; 4.3 Transition Dipoles and Dipole Strengths; 4.4 Calculating Transition Dipoles for π Molecular Orbitals; 4.5 Molecular Symmetry and Forbidden and Allowed Transitions; 4.6 Linear Dichroism; 4.7 Configuration Interactions; 4.8 Calculating Electric Transition Dipoles with the Gradient Operator; 4.9 Transition Dipoles for Excitations to Singlet and Triplet States
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4.10 The Born-Oppenheimer Approximation, Franck-Condon Factors, and the Shapes of Electronic Absorption Bands4.11 Spectroscopic Hole-Burning; 4.12 Effects of the Surroundings on Molecular Transition Energies; 4.13 The Electronic Stark Effect; 5 Fluorescence; 5.1 The Einstein Coefficients; 5.2 The Stokes Shift; 5.3 The Mirror-Image Law; 5.4 The Strickler-Berg Equation and Other RelationshipsBetween Absorption and Fluorescence; 5.5 Quantum Theory of Absorption and Emission; 5.6 Fluorescence Yields and Lifetimes; 5.7 Fluorescent Probes and Tags; 5.8 Photobleaching; 5.9 Fluorescence Anisotropy
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5.10 Single-Molecule Fluorescence and High-Resolution FluorescenceMicroscopy5.11 Fluorescence Correlation Spectroscopy; 5.12 Intersystem Crossing, Phosphorescence, and Delayed Fluorescence; 6 Vibrational Absorption; 6.1 Vibrational Normal Modes and Wavefunctions; 6.2 Vibrational Excitation; 6.3 IR Spectroscopy of Proteins; 6.4 Vibrational Stark Effects; 7 Resonance Energy Transfer; 7.1 Introduction; 7.2 The Förster Theory; 7.3 Exchange Coupling; 7.4 Energy Transfer to and from Carotenoids in Photosynthesis; 8 Exciton Interactions; 8.1 Stationary States of Systems with Interacting Molecules
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8.2 Effects of Exciton Interactions on the Absorption Spectraof Oligomers
Additional Edition:
ISBN 9783540375357
Additional Edition:
Buchausg. u.d.T. Parson, William W. Modern optical spectroscopy Berlin : Springer, 2007 ISBN 354037535X
Additional Edition:
ISBN 9783540375357
Language:
English
Subjects:
Chemistry/Pharmacy
,
Biology
Keywords:
Optische Spektroskopie
DOI:
10.1007/978-3-540-37542-5
URL:
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