.

are, respectively, the fix...Figure 5.2. Geometric characteristics of a symmetric top NH3 molecule trapped in...Figure 5.3.
Potential energy surface 
of the symmetric top NH 3molecule trapped...Figure 5.4.
Radial potential energy function 
of the symmetric top NH3 molecule...Figure 5.5. Variation of the equilibrium position of the NH3 molecule trapped in...Figure 5.6.
Potential energy of the vibration–inversion mode of the NH3 molecule...Figure 5.7.
Diagrams of rotational levels of the symmetric top NH3 molecule: (a)...Figure 5.8.
Rovibrational bar spectra associated with vibration–inversion mode 
...
6 Chapter 6Figure 6.1. Geometric characteristics of the adsorption of the NH3 molecule on t...Figure 6.2. Variations of potential energy depending on the approach distance, V ...Figure 6.3. Normalized phonon density of states | of the graphite substrate (100...Figure 6.4. Potential energy of the vibration–inversion mode of the NH3 molecule...Figure 6.5. Potential energy of the vibration–inversion mode of the NH3 molecule...Figure 6.6. Orientational energy level scheme of the NH3 adsorbed on the graphit...Figure 6.7. Vibration–orientation energy level schemes of NH3 adsorbed on the gr...Figure 6.8. Vibration–orientation energy level schemes of NH3 adsorbed on the gr...Figure 6.9. Far-infrared bar and profile spectra of the ammonia adsorbed on the ...Figure 6.10. Near-infrared bar and profile spectra in the range of mode
of NH3...Figure 6.11. Near-infrared bar and profile spectra in the range of mode ν 3of NH...Figure 6.12. Near-infrared bar and profile spectra in the range of mode ν 4of NH...Figure 6.13. Near-infrared bar and profile spectra in the range of mode ν2 of NH...
1 Chapter 3Table 3.1. Melting temperature, cohesion energy, lattice parameter and distance ...Table 3.2. Atom–atom parameters of Lennard-Jones potential of rare gases, nitrog...Table 3.3. Cartesian coordinates of the atoms of the ammonia molecule NH3 in the...Table 3.4. Numerical values of several elements of the (dimensionless) Green’s f...Table 3.5. Values of the constants associated with the double well of vibration–...Table 3.6. Values of expansion coefficients A (cm-1) [3.20] of the hypersurface ...Table 3.7. Characteristics (position in frequency and intensity) of the lines in...
2 Chapter 4Table 4.1. Data related to the clathrate sI and sII structures [SLO 08] Table 4.2. Cartesian coordinates of the atoms of a CH4 molecule in the reference...Table 4.3. Lennard-Jones parameters. Energy conversion factor 1 meV = 8.06554 cm...Table 4.4. Equilibrium configurations and minimum energies of the CH4 molecule t...Table 4.5. Equilibrium configurations and minimum energies of the NH3 molecule t...Table 4.6. The frequencies and frequency shifts (cm-1) of the vibrational mode ν ...Table 4.7. The frequencies and frequency shifts (cm-1) of the vibrational modes ...Table 4.8. Expansion coefficients | of the potential energy surface, in terms of...Table 4.9. Expansion coefficients | (meV) of the potential energy surface, in te...Table 4.10. Integrated intensities of the far infrared spectrum of NH3 molecules...Table 4.11. Integrated intensities of the near infrared spectra of the NH3 molec...Table 4.12. First derivatives of the dipole moment of CH4 as a function of dimen...
3 Chapter 5Table 5.1. Lennard-Jones atom–atom parameters . Energy conversion factor 1 meV = ...Table 5.2. Vibrational frequency shifts of NH3 trapped in a C60 nanocage ,
are ...
4 Chapter 6Table 6.1. Lennard-Jones atom–atom parameters and parameters associated with gra...Table 6.2. Frequencies (in cm-1) of the translational and orientational motions ...Table 6.3. Vibrational frequency shifts of NH3 adsorbed on a graphite substrate ...Table 6.4. Experimental frequencies (cm-1) and transition elements of the dimens...Table 6.5. Frequencies, frequency shifts (cm-1) and transition elements of the d...Table 6.6. Non-negligible values of fitting coefficients A (meV) [6.16] of the o...Table 6.7. Frequencies, frequency shifts and widths at mid-height associated wit...Table 6.8. Frequencies, intensities, frequency shifts and widths at mid-height o...
1 Cover
2 Table of Contents
3 Title Page Infrared Spectroscopy Set coordinated by Pierre Richard Dahoo and Azzedine Lakhlifi Volume 4
4 Copyright First published 2021 in Great Britain and the United States by ISTE Ltd and John Wiley & Sons, Inc. Apart from any fair dealing for the purposes of research or private study, or criticism or review, as permitted under the Copyright, Designs and Patents Act 1988, this publication may only be reproduced, stored or transmitted, in any form or by any means, with the prior permission in writing of the publishers, or in the case of reprographic reproduction in accordance with the terms and licenses issued by the CLA. Enquiries concerning reproduction outside these terms should be sent to the publishers at the undermentioned address: ISTE Ltd 27-37 St George’s Road London SW19 4EU UK www.iste.co.uk John Wiley & Sons, Inc. 111 River Street Hoboken, NJ 07030 USA www.wiley.com © ISTE Ltd 2021 The rights of Pierre Richard Dahoo and Azzedine Lakhlifi to be identified as the authors of this work have been asserted by them in accordance with the Copyright, Designs and Patents Act 1988. Library of Congress Control Number: 2021938325 British Library Cataloguing-in-Publication Data A CIP record for this book is available from the British Library ISBN 978-1-78630-652-4
5 Foreword
6 Preface
7 Begin Reading
8 References
9 Index
10 Other titles from iSTE in Waves
11 End User License Agreement
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