Symmetry and Physical Properties of Crystals

Cécile Malgrange is an emeritus professor of physics at the Université Pierre et Marie Curie, Paris, France. Her field of expertise is optics of X-rays and their applications to synchrotron radiation.Christian Ricolleau is a professor at the Université Paris Diderot, France. His field of research covers the growth and properties of metallic nanostructures and oxides. Michel Schlenker, editor of the Journal of Applied Crystallography from 1984 to 1990, is a professor at the Institut National Polytechnique de Grenoble, France. His research encompasses synchrotrons, tomography, X-rays, scattering and radiation. He is a co-author and editor to many publications.Françoise Lefaucheux is the third author of the original French edition. She is an honorary professor of physics at the Université Paris Diderot, France. Her work focused on crystal growth, both in the laboratory and in space (Spacelab).

"This book is aimed at undergraduate and graduate students in materials science and materials-related aspects of electrical and optical engineering, and at researchers investigating or applying elastic, electric and optical properties of crystals. ... The book provides a sound basis for students and researchers to investigate and apply the physical phenomena treated in the text. It can be highly recommended." (Hans Grimmer, Acta Crystallographica, 2017)

• Introduction.- Symmetry operations.- Crystal lattices.- Relationship between space groups and point groups.- Point groups.- Bravais lattices.- Space groups.- Chemical bonds and crystal structures.- Crystal anisotropy and tensors.- Second-rank tensors.- Stress tensor.- Deformation of a solid. The strain tensor.- Elasticity.- Elastic waves in crystals.- Crystal thermodynamics. Piezoelectricity.- Light propagation in crystals.- Polarization of light by crystals.- Optical activity, or rotatory power.