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1. Molecular spectroscopy [2017]
 McHale, Jeanne L., author.
 Second edition.  Boca Raton : CRC Press, Taylor & Francis Group, [2017]
 Description
 Book — xvii, 457 pages : illustrations ; 27 cm
 Summary

 Introduction and Review Historical Perspective Definitions, Derivations and Discovery Review of Quantum Mechanics Approximate Solutions to the Schrodinger Equation: Variation and Perturbation Theory Statistical Mechanics Summary Problems Bibliography
 The Nature of Electromagnetic Radiation Introduction The Classical Description of Electromagnetic Radiation Propagation of Light in Matter Quantum Mechanical Aspects of Light Summary Problems Bibliography
 Electric and Magnetic Properties of Molecules and Bulk Matter Introduction Electric Properties of Molecules Electric Properties of Bulk Matter Magnetic Properties of Matter Summary Problems Bibliography
 Timedependent Perturbation Theory of Spectroscopy Introduction: Time Dependence in Quantum Mechanics TimeDependent Perturbation Theory Rate Expression for Emission Perturbation Theory Calculation of Polarizability Quantum Mechanical Expression for Emission Rate Time Dependence of the Density Matrix Summary Problems Bibliography
 The TimeDependent Approach to Spectroscopy Introduction TimeCorrelation Functions and Spectra as FourierTransform Pairs The Properties of TimeCorrelation Functions and Spectral Lineshapes The Fluctuation Dissipation Theorem Rotational Correlation Functions and Pure Rotational Spectra Reorientational Spectroscopy of Liquids: SingleMolecule and Collective Dynamics VibrationRotation Spectra Spectral Moments Summary Problems Bibliography
 Experimental Consideration: Absorption: Emission, and Scattering Introduction Einstein A and B Coefficients for Absorption and Emission Absorption and Stimulated Emission Electronic Absorption and Emission Spectroscopy Measurement of Light Scattering: The Raman and Rayleigh Effects Spectral Lineshapes Summary Problems Bibliography Atomic Spectroscopy Introduction Good Quantum Numbers and Not So Good Quantum Numbers Selection Rules for Atomic Absorption and Emission The Effect of External Fields Atomic Lasers and The Principles of Laser Emission Summary Problems Bibliography
 Rotational Spectroscopy Introduction Energy Levels for Free Rigid Rotors Angular Momentum Coupling in Non1SIGMA Electronic States Nuclear Statistics and the J states of Homonuclear Diatomics Rotational Absorption and Emission Spectroscopy Rotational Raman Spectroscopy Corrections to the RigidRotor Approximation Internal Rotation Summary Problems Bibliography
 Vibrational Spectroscopy of Diatomic Molecules Introduction The BornOppenheimer Approximation and Its Consequences The Harmonic Oscillator Model Selection Rules for Vibrational Transitions Beyond the RigidRotor Harmonic Oscillator Approximation Summary Problems Bibliography
 Vibrational Spectroscopy of Polyatomics Introduction Normal Modes of Vibration Quantum Mechanics of Polyatomic Vibrations Group Theoretical Treatment of Vibrations Selection Rules for Infrared Absorption and Raman Scattering: Group Theoretical Prediction of Activity Rotational Structure Anharmonicity Selection Rules at Work: Benzene Solvent Effects on Infrared Spectra Summary Problems Bibliography
 Electronic Spectroscopy Introduction Diatomic Molecules: Electronic State and Selection Rules Vibrational Structure in Electronic Spectra and Diatomics BornOppenheimer Breakdown in Diatomic Molecules Polyatomic Molecules: Electronic States and Selection Rules Transition Metal Complexes: Forbidden Transitions and the JahnTeller Effect Emission Spectra of Polyatomic Molecules Nonradiative Relaxation of Polyatomic Molecules Chromophores Solvent Effects in Electronic Spectroscopy Summary Problems Bibliography Raman and Resonance Raman Spectroscopy Introduction Selection Rules in Raman Scattering Polarization in Raman Scattering Rotational and Vibrational Dynamics in Raman Scattering Analysis of Raman Excitation Profiles SurfaceEnhanced Raman ScatteringSummary Problems Bibliography
 Nonlinear Optical Spectroscopy Introduction Classical Approaches to Nonlinear Optical Processes Quantum Mechanical Approach to Nonlinear Optical Processes Feynman Diagrams and Calculation of TimeDependent Response Functions Experimental Applications of Nonlinear Processes Summary Problems Bibliography
 TimeResolved Spectroscopy Introduction TimeResolved Fluorescence Spectroscopy TimeResolved Four Wave Mixing Experiments Transient Grating and Photon Echo Experiments TwoDimensional Spectroscopy Summary Problems Bibliography
 Appendix A Math Review Vectors and Tensors in Three Dimensions Matrices Operations with Cartesian and Spherical Tensors Spherical Harmonics Wigner Rotation Functions and Spherical Tensors The ClebschGordan Series and 3j Symbols Appendix B Principles of Electrostatics Units Some Applications of Gauss' Law Some Mathematical Details Appendix C Group Theory Point Groups and Symmetry Operations Information Conveyed by The Character Tables Direct Products and Reducible Representations Character Tables.
 (source: Nielsen Book Data)
(source: Nielsen Book Data)
 Online
Science Library (Li and Ma)
Science Library (Li and Ma)  Status 

Stacks  
QC454 .M6 M38 2017  Unknown 
2. Molecular spectroscopy [1999]
 McHale, Jeanne L.
 1st ed.  Upper Saddle River, N.J. : Prentice Hall, c1999.
 Description
 Book — xv, 463 p. : ill. ; 25 cm.
 Summary

 (NOTE: Each chapter begins with an introduction and concludes with a summary and endofchapter problems.)
 1. Introduction and Review. Historical Perspective. Definition, Derivations, and Discovery. Review of Quantum Mechanics. Approximate Solutions to the Schrodinger Equation. Statistical Mechanics.
 2. The Nature of Electromagnetic Radiation. The Classical Description of Electromagnetic Radiation. Propagation of Light in Matter. Quantum Mechanical Aspects of Light.
 3. Electric and Magnetic Properties of Molecules and Bulk Matter. Electric Properties of Molecules. Electric Properties of Bulk Matter. Magnetic Properties of Matter.
 4. TimeDependent Perturbation Theory of Spectroscopy. Time Dependence in Quantum Mechanics. Time Dependent Perturbation Theory. Rate Expression for Emission. Perturbation Theory Calculation of Polarizability. Quantum Mechanical Expression for Emission Rate. Time Dependence of the Density Matrix.
 5. The TimeDependent Approach to Spectroscopy. TimeCorrelation Functions and Spectra as Fourier Transform Pairs. Properties of Time Correlation Functions and Spectral Lineshapes. The FluctuationDissipation Theorem. Rotational Correlation Functions and Pure Rotational Spectra. Reorientational Spectroscopy of Liquids. VibrationRotation Spectra. Spectral Moments.
 6. Experimental Considerations: Absorption, Emission, and Scattering. Einstein A and B Coefficients for Absorption and Emission. Absorption and Stimulated Emission. Absorption and Emission Spectroscopy. Measurement of Light Scattering: The Raman and Rayleigh Effects. Spectral Lineshapes.
 7. Atomic Spectroscopy. Good Quantum Numbers and Not So Good Quantum Numbers. Selection Rules for Atomic Absorption and Emission. The Effect of External Fields. Atomic Lasers and the Principles of Laser Emission.
 8. Rotational Spectroscopy. Energy Levels of Free Rigid Rotors. Angular Momentum Coupling in Non1S Electronic States. Nuclear Statistics and JStates of Homonuclear Diatomics. Rotational Absorption and Emission Spectroscopy. Rotational Raman Spectroscopy. Corrections to the Rigid Rotor Approximation. Internal Rotation.
 9. Vibrational Spectroscopy of Diatomics. The BornOppenheimer Approximation and Its Consequences. The Harmonic Oscillator Model. Selection Rules for Vibrational Transitions. Beyond the Rigid Rotor  Harmonic Oscillator Approximation.
 10. Vibrational Spectroscopy of Polyatomic Molecules. Normal Modes of Vibration. Quantum Mechanics of Polyatomic Vibrations. Group Theoretical Treatment of Vibrations. Selection Rules for Infrared Absorption and Raman Scattering. Rotational Structure. Anharmonicity. Selection Rules at Work: Benzene. Solvent Effects on Infrared Spectra.
 11. Electronic Spectroscopy. Diatomic Molecules: Electronic States and Selection Rules. Vibrational Structure in Electronic Spectra of Diatomics. BornOppenheimer Breakdown in Diatomic Molecules. Polyatomic Molecules: Electronic States and Selection Rules. Transition Metal Complexes. Emission Spectroscopy of Polyatomic Molecules. Chromophores. Solvent Effects in Electronic Spectroscopy.
 12. Raman and Resonance Raman Spectroscopy. Selection Rules in Raman Scattering. Polarization in Raman Scattering. Rotational and Vibrational Dynamics in Raman Scattering. Analysis of Raman Excitation Profiles. TimeDependent Theory of Resonance Raman Spectra. Raman Scattering as a ThirdOrder Nonlinear Process. Appendix A: Math Review. Appendix B: Principles of Electrostatics. Appendix C: Group Theory.
 (source: Nielsen Book Data)
(source: Nielsen Book Data)
 Online
Science Library (Li and Ma)
Science Library (Li and Ma)  Status 

Stacks  
QC454 .M6 M38 1999  Unknown 
 Boca Raton : CRC Press, 2012.
 Description
 Book — xiv, 448 p., [8] p. of plates : ill. (some col.).
 Summary

 Principles of Photoluminescence, Baldassare Di Bartolo and John Collins AlN: Properties and Applications, Ashok Sedhain, Jingyu Lin, and Hongxing Jiang GaNBased Optical Devices, Hiroaki Ohta, Steven P. DenBaars, and Shuji Nakamura Photoluminescence of ZnO: Basics and Applications, Klaus Thonke and Martin Feneberg Novel Applications of ZnO: Random Lasing and UV Photonic Light Sources, Hui Cao and Robert P.H. Chang Luminescent ZnO and MgZnO, Leah Bergman, Jesse Huso, John L. Morrison, and M. Grant Norton Luminescence Studies of Impurities and Defects in IIINitride Semiconductors, Bo Monemar and Plamen P. Paskov NarrowGap Semiconductors for Infrared Detectors, Antoni Rogalski SolidState Lighting, Lekhnath Bhusal and Angelo Mascarenhas Fundamentals of the Quantum Confinement Effect, Patanjali Kambhampati Selenide and Sulfide Quantum Dots and Nanocrystals: Optical Properties, Andrea M. Munro Radiative Cascades in Semiconductor Quantum Dots, Eilon Poem and David Gershoni Photoluminescence and Carrier Transport in Nanocrystalline TiO2, Jeanne L. McHale and Fritz J. Knorr Photoluminescence Spectroscopy of Single Semiconductor Nanoparticles, Takashi Tachikawa and Tetsuro Majima Biological Applications of Photoluminescent Semiconductor Quantum Dots, Oleg Kovtun and Sandra J. Rosenthal Index.
 (source: Nielsen Book Data)
(source: Nielsen Book Data)
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