Vibrational-rotational Spectroscopy And Molecular Dynamics

Vibrational-rotational Spectroscopy And Molecular Dynamics

Author: Dusan Papousek

Publisher: World Scientific

Published: 1997-10-31

Total Pages: 576

ISBN-13: 9814502456

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The book reviews the results of vibration-rotational spectroscopy of molecules obtained recently by combining modern computational methods of quantum chemistry with the new techniques of high-resolution rotational and vibration-rotational spectroscopy. It shows for example that the tunneling vibration-rotational spectroscopy of the van der Waals complexes provides a new look at intermolecular forces while the high precision and sensitivity of the submillimeter-wave and Fourier transform microwave spectroscopy make it possible to study complex rotational spectra of molecules in excited vibrational states. New results of high level ab initio quantum chemical computations of vibrational and rotational energy levels and dipole moment functions of unusual molecules will be discussed together with the recent discovery of clustering of energy levels in asymmetric tops. Group theoretical analysis of floppy molecules, especially the tunneling effects in nonrigid molecules, will also be discussed.


Book Synopsis Vibrational-rotational Spectroscopy And Molecular Dynamics by : Dusan Papousek

Download or read book Vibrational-rotational Spectroscopy And Molecular Dynamics written by Dusan Papousek and published by World Scientific. This book was released on 1997-10-31 with total page 576 pages. Available in PDF, EPUB and Kindle. Book excerpt: The book reviews the results of vibration-rotational spectroscopy of molecules obtained recently by combining modern computational methods of quantum chemistry with the new techniques of high-resolution rotational and vibration-rotational spectroscopy. It shows for example that the tunneling vibration-rotational spectroscopy of the van der Waals complexes provides a new look at intermolecular forces while the high precision and sensitivity of the submillimeter-wave and Fourier transform microwave spectroscopy make it possible to study complex rotational spectra of molecules in excited vibrational states. New results of high level ab initio quantum chemical computations of vibrational and rotational energy levels and dipole moment functions of unusual molecules will be discussed together with the recent discovery of clustering of energy levels in asymmetric tops. Group theoretical analysis of floppy molecules, especially the tunneling effects in nonrigid molecules, will also be discussed.

Vibration-rotational Spectroscopy and Molecular Dynamics

Vibration-rotational Spectroscopy and Molecular Dynamics

Author: Du?an Papou?ek

Publisher: World Scientific

Published: 1997

Total Pages: 578

ISBN-13: 9789810216351

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The book reviews the results of vibration-rotational spectroscopy of molecules obtained recently by combining modern computational methods of quantum chemistry with the new techniques of high-resolution rotational and vibration-rotational spectroscopy. It shows for example that the tunneling vibration-rotational spectroscopy of the van der Waals complexes provides a new look at intermolecular forces while the high precision and sensitivity of the submillimeter-wave and Fourier transform microwave spectroscopy make it possible to study complex rotational spectra of molecules in excited vibrational states. New results of high level ab initio quantum chemical computations of vibrational and rotational energy levels and dipole moment functions of unusual molecules will be discussed together with the recent discovery of clustering of energy levels in asymmetric tops. Group theoretical analysis of floppy molecules, especially the tunneling effects in nonrigid molecules, will also be discussed.


Book Synopsis Vibration-rotational Spectroscopy and Molecular Dynamics by : Du?an Papou?ek

Download or read book Vibration-rotational Spectroscopy and Molecular Dynamics written by Du?an Papou?ek and published by World Scientific. This book was released on 1997 with total page 578 pages. Available in PDF, EPUB and Kindle. Book excerpt: The book reviews the results of vibration-rotational spectroscopy of molecules obtained recently by combining modern computational methods of quantum chemistry with the new techniques of high-resolution rotational and vibration-rotational spectroscopy. It shows for example that the tunneling vibration-rotational spectroscopy of the van der Waals complexes provides a new look at intermolecular forces while the high precision and sensitivity of the submillimeter-wave and Fourier transform microwave spectroscopy make it possible to study complex rotational spectra of molecules in excited vibrational states. New results of high level ab initio quantum chemical computations of vibrational and rotational energy levels and dipole moment functions of unusual molecules will be discussed together with the recent discovery of clustering of energy levels in asymmetric tops. Group theoretical analysis of floppy molecules, especially the tunneling effects in nonrigid molecules, will also be discussed.

Vibrational Dynamics Of Molecules

Vibrational Dynamics Of Molecules

Author: Joel M Bowman

Publisher: World Scientific

Published: 2022-06-14

Total Pages: 603

ISBN-13: 9811237921

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Vibrational Dynamics of Molecules represents the definitive concise text on the cutting-edge field of vibrational molecular chemistry. The chapter contributors are a Who's Who of world leaders in the field. The editor, Joel Bowman, is widely considered as one of the founding fathers of theoretical reaction dynamics. The included topics span the field, from fundamental theory such as collocation methods and vibrational CI methods, to interesting applications such as astrochemistry, supramolecular systems and virtual computational spectroscopy. This is a useful reference for theoretical chemists, spectroscopists, physicists, undergraduate and graduate students, lecturers and software developers.


Book Synopsis Vibrational Dynamics Of Molecules by : Joel M Bowman

Download or read book Vibrational Dynamics Of Molecules written by Joel M Bowman and published by World Scientific. This book was released on 2022-06-14 with total page 603 pages. Available in PDF, EPUB and Kindle. Book excerpt: Vibrational Dynamics of Molecules represents the definitive concise text on the cutting-edge field of vibrational molecular chemistry. The chapter contributors are a Who's Who of world leaders in the field. The editor, Joel Bowman, is widely considered as one of the founding fathers of theoretical reaction dynamics. The included topics span the field, from fundamental theory such as collocation methods and vibrational CI methods, to interesting applications such as astrochemistry, supramolecular systems and virtual computational spectroscopy. This is a useful reference for theoretical chemists, spectroscopists, physicists, undergraduate and graduate students, lecturers and software developers.

Molecular Dynamics and Spectroscopy by Stimulated Emission Pumping

Molecular Dynamics and Spectroscopy by Stimulated Emission Pumping

Author: Hai-Lung Dai

Publisher: World Scientific

Published: 1995

Total Pages: 1148

ISBN-13: 9789810221119

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Since the first stimulated emission pumping (SEP) experiments more than a decade ago, this technique has proven powerful for studying vibrationally excited molecules. SEP is now widely used by increasing numbers of research groups to investigate fundamental problems in spectroscopy, intramolecular dynamics, intermolecular interactions, and even reactions. SEP provides rotationally pre-selected spectra of vibrationally highly excited molecules undergoing large amplitude motions. A unique feature of SEP is the ability to access systematically a wide variety of extreme excitations localized in various parts of a molecule, and to prepare populations in specific, high vibrational levels. SEP has made it possible to ask and answer specific questions about intramolecular vibrational redistribution and the role of vibrational excitation in chemical reactions.


Book Synopsis Molecular Dynamics and Spectroscopy by Stimulated Emission Pumping by : Hai-Lung Dai

Download or read book Molecular Dynamics and Spectroscopy by Stimulated Emission Pumping written by Hai-Lung Dai and published by World Scientific. This book was released on 1995 with total page 1148 pages. Available in PDF, EPUB and Kindle. Book excerpt: Since the first stimulated emission pumping (SEP) experiments more than a decade ago, this technique has proven powerful for studying vibrationally excited molecules. SEP is now widely used by increasing numbers of research groups to investigate fundamental problems in spectroscopy, intramolecular dynamics, intermolecular interactions, and even reactions. SEP provides rotationally pre-selected spectra of vibrationally highly excited molecules undergoing large amplitude motions. A unique feature of SEP is the ability to access systematically a wide variety of extreme excitations localized in various parts of a molecule, and to prepare populations in specific, high vibrational levels. SEP has made it possible to ask and answer specific questions about intramolecular vibrational redistribution and the role of vibrational excitation in chemical reactions.

Molecular Dynamics and Spectra: I. Diatomic Rotation and Vibration

Molecular Dynamics and Spectra: I. Diatomic Rotation and Vibration

Author: Kent R. Wilson

Publisher:

Published: 1980

Total Pages: 27

ISBN-13:

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The pure rotational and vibrational-rotational absorption bands for a diatomic are calculated directly from classical molecular dynamics, classical linear response theory and classical statistical mechanical ensemble averaging with the use of simple quantum corrections. The experimental spectral band intensities and contours are well reproduced for CO from dilute gas phase through solution in compressed Ar to solution in liquid Ar by these 'Newtonian' classical spectral calculations. The typical evolution seen in vibrational spectra from multiple-peaked gas phase bands to single-peaked solution bands is observed. The 'Newtonian' gas phase calculations also match quantum and correspondence principle classical spectral calculations. This molecular dynamic approach may be applied to compute the spectra of complex molecules or liquids for which a normal mode analysis may be impractical, and may also be extended to nonequilibrium systems, for example to compute transient vibrational spectra during chemical reactions. (Author).


Book Synopsis Molecular Dynamics and Spectra: I. Diatomic Rotation and Vibration by : Kent R. Wilson

Download or read book Molecular Dynamics and Spectra: I. Diatomic Rotation and Vibration written by Kent R. Wilson and published by . This book was released on 1980 with total page 27 pages. Available in PDF, EPUB and Kindle. Book excerpt: The pure rotational and vibrational-rotational absorption bands for a diatomic are calculated directly from classical molecular dynamics, classical linear response theory and classical statistical mechanical ensemble averaging with the use of simple quantum corrections. The experimental spectral band intensities and contours are well reproduced for CO from dilute gas phase through solution in compressed Ar to solution in liquid Ar by these 'Newtonian' classical spectral calculations. The typical evolution seen in vibrational spectra from multiple-peaked gas phase bands to single-peaked solution bands is observed. The 'Newtonian' gas phase calculations also match quantum and correspondence principle classical spectral calculations. This molecular dynamic approach may be applied to compute the spectra of complex molecules or liquids for which a normal mode analysis may be impractical, and may also be extended to nonequilibrium systems, for example to compute transient vibrational spectra during chemical reactions. (Author).

Ab Initio Variational Calculations of Molecular Vibrational-Rotational Spectra

Ab Initio Variational Calculations of Molecular Vibrational-Rotational Spectra

Author: Debra J. Searles

Publisher: Springer Science & Business Media

Published: 2013-03-14

Total Pages: 245

ISBN-13: 3662055619

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This work had its beginnings in the early 1980s at the University ofWollongong, with significant contributions from Dr. Margret Hamilton, Professors Peter G. Burton and Greg Doherty. The emphasis was to develop computer code to solve the nuclear Schrodinger problem. For bent triatomic molecules the project was fmally realized at the University of Newcastle a decade or so later, with the contribution from Ms. Feng Wan g. Aspects of this work are now taught in the quantum mechanics and electron spectroscopy courses at The University of Newcastle. Even now "complete" ab initio solutions of the time-independent SchrOdinger equation is not commonplace for molecules containing four atoms or more. In fact, when using the Eckart-Watson nuclear Hamiltonian a further restriction needs to be imposed; that is, the molecule is restricted to undergoing small amplitudes of vibration. This Hamiltonian is useful for molecules containing massive nuclei and moreover, has been extremely useful in interpreting the rovibrational spectra of small molecules. Nevertheless, a number of nuclear Hamiltonians that do not embed an equilibrium geometry have become well established and are extremely successful in interpreting rovibrational spectra of floppy molecules. Furthermore, solution algorithms vary greatly from research group to research group and it is still unclear which aspects will survive the next decade. For example, even for a triatomic molecule a general form of a potential function has not yet been uncovered that will generally interpolate with accuracy and precision ab initio discrete surfaces.


Book Synopsis Ab Initio Variational Calculations of Molecular Vibrational-Rotational Spectra by : Debra J. Searles

Download or read book Ab Initio Variational Calculations of Molecular Vibrational-Rotational Spectra written by Debra J. Searles and published by Springer Science & Business Media. This book was released on 2013-03-14 with total page 245 pages. Available in PDF, EPUB and Kindle. Book excerpt: This work had its beginnings in the early 1980s at the University ofWollongong, with significant contributions from Dr. Margret Hamilton, Professors Peter G. Burton and Greg Doherty. The emphasis was to develop computer code to solve the nuclear Schrodinger problem. For bent triatomic molecules the project was fmally realized at the University of Newcastle a decade or so later, with the contribution from Ms. Feng Wan g. Aspects of this work are now taught in the quantum mechanics and electron spectroscopy courses at The University of Newcastle. Even now "complete" ab initio solutions of the time-independent SchrOdinger equation is not commonplace for molecules containing four atoms or more. In fact, when using the Eckart-Watson nuclear Hamiltonian a further restriction needs to be imposed; that is, the molecule is restricted to undergoing small amplitudes of vibration. This Hamiltonian is useful for molecules containing massive nuclei and moreover, has been extremely useful in interpreting the rovibrational spectra of small molecules. Nevertheless, a number of nuclear Hamiltonians that do not embed an equilibrium geometry have become well established and are extremely successful in interpreting rovibrational spectra of floppy molecules. Furthermore, solution algorithms vary greatly from research group to research group and it is still unclear which aspects will survive the next decade. For example, even for a triatomic molecule a general form of a potential function has not yet been uncovered that will generally interpolate with accuracy and precision ab initio discrete surfaces.

Rotational Spectroscopy of Diatomic Molecules

Rotational Spectroscopy of Diatomic Molecules

Author: John M. Brown

Publisher: Cambridge University Press

Published: 2003-04-10

Total Pages: 1074

ISBN-13: 9780521530781

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The definitive text on the rotational spectroscopy of diatomic molecules.


Book Synopsis Rotational Spectroscopy of Diatomic Molecules by : John M. Brown

Download or read book Rotational Spectroscopy of Diatomic Molecules written by John M. Brown and published by Cambridge University Press. This book was released on 2003-04-10 with total page 1074 pages. Available in PDF, EPUB and Kindle. Book excerpt: The definitive text on the rotational spectroscopy of diatomic molecules.

Spectroscopy of Condensed Media

Spectroscopy of Condensed Media

Author: C.H. Wang

Publisher: Elsevier

Published: 2012-12-02

Total Pages: 371

ISBN-13: 0323153704

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Spectroscopy of Condensed Media: Dynamics of Molecular Interactions discusses the use of molecular spectroscopy (including nuclear magnetic resonance [NMR] and nonlinear optical spectroscopy) in dynamic processes in condensed molecular systems. The book reviews relationship between transition probability and the time-correlation function of an isotropic electric dipole system, linear-response theory, and light scattering resulting from the translational motion of molecules in fluids. The text describes molecular rotation, theories of angular momentum, nuclear magnetic resonance, and spontaneous and coherent Raman effects. Closely related with the Raman and Brillouin scattering are vibrational dephasing, relaxation processes, and dynamics of phase transition solids. The book highlights the advantages of using NMR and also explains the basic concepts, such as local field, spin temperature, and effective Hamiltonians, that are employed in interpreting NMR experiments. The investigator can use nonlinear optical spectroscopy to study condensed matter. The text also cites two methods in which the investigator can control the time-dependent average Hamiltonian by (1) manipulating the intensity, timing, phase of the pulses, or (2) by sample spinning. The book is intended for advanced graduate students in physical chemistry that will equally benefit both investigators and scientists involved in physics research.


Book Synopsis Spectroscopy of Condensed Media by : C.H. Wang

Download or read book Spectroscopy of Condensed Media written by C.H. Wang and published by Elsevier. This book was released on 2012-12-02 with total page 371 pages. Available in PDF, EPUB and Kindle. Book excerpt: Spectroscopy of Condensed Media: Dynamics of Molecular Interactions discusses the use of molecular spectroscopy (including nuclear magnetic resonance [NMR] and nonlinear optical spectroscopy) in dynamic processes in condensed molecular systems. The book reviews relationship between transition probability and the time-correlation function of an isotropic electric dipole system, linear-response theory, and light scattering resulting from the translational motion of molecules in fluids. The text describes molecular rotation, theories of angular momentum, nuclear magnetic resonance, and spontaneous and coherent Raman effects. Closely related with the Raman and Brillouin scattering are vibrational dephasing, relaxation processes, and dynamics of phase transition solids. The book highlights the advantages of using NMR and also explains the basic concepts, such as local field, spin temperature, and effective Hamiltonians, that are employed in interpreting NMR experiments. The investigator can use nonlinear optical spectroscopy to study condensed matter. The text also cites two methods in which the investigator can control the time-dependent average Hamiltonian by (1) manipulating the intensity, timing, phase of the pulses, or (2) by sample spinning. The book is intended for advanced graduate students in physical chemistry that will equally benefit both investigators and scientists involved in physics research.

Frontiers of Molecular Spectroscopy

Frontiers of Molecular Spectroscopy

Author: Jaan Laane

Publisher: Elsevier

Published: 2011-08-11

Total Pages: 741

ISBN-13: 0080932371

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Much of what we know about atoms, molecules, and the nature of matter has been obtained using spectroscopy over the last one hundred years or so. In this book we have collected together twenty chapters by eminent scientists from around the world to describe their work at the cutting edge of molecular spectroscopy. These chapters describe new methodology and applications, instrumental developments, and theory which is taking spectroscopy into new frontiers. The range of topics is broad. Lasers are utilized in much of the research, but their applications range from sub-femtosecond spectroscopy to the study of viruses and also to the investigation of art and archeological artifacts. Three chapters discuss work on biological systems and three others represent laser physics. The recent advances in cavity ringdown spectroscopy (CRDS), surface enhanced Raman spectroscopy (SERS), two-dimensional correlation spectroscopy (2D-COS), and microwave techniques are all covered. Chapters on electronic excited states, molecular dynamics, symmetry applications, and neutron scattering are also included and demonstrate the wide utility of spectroscopic techniques. Provides comprehensive coverage of present spectroscopic investigations Features 20 chapters written by leading researchers in the field Covers the important role of molecular spectroscopy in research concerned with chemistry, physics, and biology


Book Synopsis Frontiers of Molecular Spectroscopy by : Jaan Laane

Download or read book Frontiers of Molecular Spectroscopy written by Jaan Laane and published by Elsevier. This book was released on 2011-08-11 with total page 741 pages. Available in PDF, EPUB and Kindle. Book excerpt: Much of what we know about atoms, molecules, and the nature of matter has been obtained using spectroscopy over the last one hundred years or so. In this book we have collected together twenty chapters by eminent scientists from around the world to describe their work at the cutting edge of molecular spectroscopy. These chapters describe new methodology and applications, instrumental developments, and theory which is taking spectroscopy into new frontiers. The range of topics is broad. Lasers are utilized in much of the research, but their applications range from sub-femtosecond spectroscopy to the study of viruses and also to the investigation of art and archeological artifacts. Three chapters discuss work on biological systems and three others represent laser physics. The recent advances in cavity ringdown spectroscopy (CRDS), surface enhanced Raman spectroscopy (SERS), two-dimensional correlation spectroscopy (2D-COS), and microwave techniques are all covered. Chapters on electronic excited states, molecular dynamics, symmetry applications, and neutron scattering are also included and demonstrate the wide utility of spectroscopic techniques. Provides comprehensive coverage of present spectroscopic investigations Features 20 chapters written by leading researchers in the field Covers the important role of molecular spectroscopy in research concerned with chemistry, physics, and biology

Revealing the Structure and Dynamics of Small-molecule Solutions and Proteins Using Theoretical Vibrational Spectroscopy

Revealing the Structure and Dynamics of Small-molecule Solutions and Proteins Using Theoretical Vibrational Spectroscopy

Author:

Publisher:

Published: 2014

Total Pages: 0

ISBN-13:

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Due to the sensitivity of vibrational chromophores to their local environments, linear and ultrafast vibrational spectroscopy have proven to be very useful techniques for studying the structure and dynamics of condensed phases. Because spectroscopic techniques encode information related to the time-dependent configuration of an entire system into spectra resolved over at most a few dimensions, however, it is very difficult to interpret vibrational line shapes in a detailed and unambiguous manner. One approach to surmounting this difficulty is to calculate vibrational line shapes from molecular dynamics (MD) simulations by employing vibrational response theory and spectroscopic maps. (The maps relate observables in classical MD simulations to quantum spectroscopic quantities.) Once validated by comparison of experimental and theoretical line shapes, MD simulations can be used as an unequivocal basis for the interpretation of vibrational spectra. Here, we employ this approach in order to gain insight into small-molecule solutions and proteins. After sketching the theoretical formalism underlying the calculations of vibrational spectra (Chapter 2), vibrational spectroscopic analysis of the urea/water (Chapter 3) and cyanide/water (Chapter 4) solutions is presented. Analysis of linear infrared (IR) line shapes provides information concerning the local solvation structure of these molecules, while analysis of two-dimensional IR and anisotropy decay yields insight into frequency and rotational dynamics. The remainder of this work concerns the vibrational spectroscopy of the amide I (mostly CO-stretch) band of proteins. After presenting additional theoretical formalism and maps for protein spectroscopy (Chapter 5), the maps are evaluated by examining IR spectra for a single conformation of an alpha-helical model peptide in the gas phase (Chapter 6). These methods are then applied to evaluate the 2D IR spectra of two important biological systems: polyglutamine (Chapter 7) and the potassium ion channel KcsA (Chapter 8). Notably, these studies employ isotope-labeling techniques to isolate the vibrational response of a subset of amide I modes in a non-perturbative fashion. Finally, extensions to the theory are presented to enable the computation of amide I vibrational sum-frequency generation spectra (Chapter 9), which are expected to be sensitive to the structures of interfacial proteins.


Book Synopsis Revealing the Structure and Dynamics of Small-molecule Solutions and Proteins Using Theoretical Vibrational Spectroscopy by :

Download or read book Revealing the Structure and Dynamics of Small-molecule Solutions and Proteins Using Theoretical Vibrational Spectroscopy written by and published by . This book was released on 2014 with total page 0 pages. Available in PDF, EPUB and Kindle. Book excerpt: Due to the sensitivity of vibrational chromophores to their local environments, linear and ultrafast vibrational spectroscopy have proven to be very useful techniques for studying the structure and dynamics of condensed phases. Because spectroscopic techniques encode information related to the time-dependent configuration of an entire system into spectra resolved over at most a few dimensions, however, it is very difficult to interpret vibrational line shapes in a detailed and unambiguous manner. One approach to surmounting this difficulty is to calculate vibrational line shapes from molecular dynamics (MD) simulations by employing vibrational response theory and spectroscopic maps. (The maps relate observables in classical MD simulations to quantum spectroscopic quantities.) Once validated by comparison of experimental and theoretical line shapes, MD simulations can be used as an unequivocal basis for the interpretation of vibrational spectra. Here, we employ this approach in order to gain insight into small-molecule solutions and proteins. After sketching the theoretical formalism underlying the calculations of vibrational spectra (Chapter 2), vibrational spectroscopic analysis of the urea/water (Chapter 3) and cyanide/water (Chapter 4) solutions is presented. Analysis of linear infrared (IR) line shapes provides information concerning the local solvation structure of these molecules, while analysis of two-dimensional IR and anisotropy decay yields insight into frequency and rotational dynamics. The remainder of this work concerns the vibrational spectroscopy of the amide I (mostly CO-stretch) band of proteins. After presenting additional theoretical formalism and maps for protein spectroscopy (Chapter 5), the maps are evaluated by examining IR spectra for a single conformation of an alpha-helical model peptide in the gas phase (Chapter 6). These methods are then applied to evaluate the 2D IR spectra of two important biological systems: polyglutamine (Chapter 7) and the potassium ion channel KcsA (Chapter 8). Notably, these studies employ isotope-labeling techniques to isolate the vibrational response of a subset of amide I modes in a non-perturbative fashion. Finally, extensions to the theory are presented to enable the computation of amide I vibrational sum-frequency generation spectra (Chapter 9), which are expected to be sensitive to the structures of interfacial proteins.