The electrodynamics of water and ice

This book is a research monograph summarizing recent advances related to the molecular structure of water and ice, and it is based on the latest spectroscopic data available. A special focus is given to radio- and microwave frequency regions. Within the five interconnected chapters, the author reviews the electromagnetic waves interaction with water, ice, and moist substances, discussing the microscopic mechanisms behind the dielectric responses. Well-established classic views concerning the structure of water and ice are considered along with new approaches related to atomic and molecular dynamics. Particular attention is given to nanofluidics, atmospheric science, and electrochemistry. The mathematical apparatus, based on diverse approaches employed in condensed matter physics, is widely used and allows the reader to quantitatively describe the electrodynamic response of water and ice in both bulk and confined states. This book is intended for a wide audience covering physicists, electrochemists, geophysicists, engineers, biophysicists, and general scientists who work on the electromagnetic radiation interaction with water and moist substances.

INTRODUCTION CHAPTER 1. A historical review on the structure of water and ice (50 pages)1.1 Bragg-scattering and Bernal-Fowler's water1.2 Direct current, autoionization, and pH1.3 Isotopic tracers and molecular self-diffusion1.4 Protons diffusion by neutron scattering1.5 Interaction potentials in molecular dynamics simulations1.6 Summary on the 'structure' of water and ice CHAPTER 2. Electromagnetic waves interaction with liquid water (50 pages)2.1 The method of broadband dielectric spectroscopy2.2 Dielectric relaxation and absorption at low and high frequencies2.3 Dielectric constant of water2.4 Infrared and Raman spectra2.5 Heavy water: isotope effect2.6 Generalized dielectric spectrum of liquid water (spectral-weight analysis) CHAPTER 3. Electrodynamics of ice (50 pages)3.1 Dielectric-terahertz spectrum of ice3.2 Temperature dependence of spectral parameters3.3 Ice among other solid dielectrics3.4 Fundamental similarities between water and ice3.5 Dynamical structure of ice and water from dielectric spectroscopy data CHAPTER 4. Mechanisms of the dielectric response of water and ice (50 pages)4.1 Why does the microwave oven work?4.2 How long does the water molecule live?4.3 Why ice and water transparent?4.4 Do dynamical structures of water and ice have something in common?4.5 Test of models by other non-spectroscopic methods CHAPTER 5. Electrodynamics of aqueous media (50 pages)5.1 Dielectric properties of moist substances5.2 Proton conduction and dielectric constant of interfacial water5.3 Electrodynamics of aqueous solutions5.4 Solvation at the picosecond time-scale5.5 Water and ice as conductors/condensers of electricity CONCLUSIONS REFERENCES