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Here is your everything guide to the world of crystals, from an exploration of their physical and metaphysical properties, to the skinny on crystal care and uses. Learn about using crystals in the home and workplace, manifesting with crystal charms and spells, meditating and healing with crystals, creating gem elixers and crystal grids, and more. The Little Crystalpedia provides a photographic chart of crystals and their characteristics. Interactive journal pages for recording details of your crystals-- including date and place acquired; properties for mental, physical, and spiritual planes; plans for use; and intuitive feeling--comprise most of the book. 160 pages. 6-1/4" wide x 8-1/4" high (15.9 cm wide x 21 cm high). Hardcover. Ribbon bookmark.
Expand and reflect on your crystal healing journey with The Crystal Healing Reflection Journal, organized by chakra. The Crystal Healing Reflection Journal offers inspiration and a space for beginners and experienced practitioners alike to reflect and expand their crystal healing practice. Organized by chakra, each beautifully illustrated section begins with the associated crystals for that chakra. The crystal's healing qualities can soothe a diverse array of physical ailments such as pain, exhaustion, and stress to emotional concerns such as anger, sadness, and heartbreak. The remainder of each section features fill-in pages for your thoughts, experiences, and notes on each crystal healing session. With plenty of helpful prompts and space to reflect on their experiences, this journal will be a great tool for those wishing to expand their crystal healing practice. EXPERT GUIDANCE: Let author Uma Silbey, an original stone healer in the United States with 40+ years of experience, guide you through your journey with crystal healing INCLUDES CRYSTAL'S QUALITIES: Learn about the crystals associated with each chakra and write down your experience with each healing practice 70 ENTRIES: Start your reflection journey at any time of the year with 70 entries for you to write down noteworthy moments from each crystal healing session BEAUTIFULLY ILLUSTRATED: Each section begins with a beautiful illustration to help inspire and soothe the mind COMPLETE YOUR COLLECTION: Enhance your crystal healing knowledge and reflection with The Power of Crystal Healing and Crystal Healing Deck
Fluorinated Liquid Crystals: Design of Soft Nanostructures and Increased Complexity of Self-Assembly by Perfluorinated Segments, by Carsten Tschierske Liquid Crystalline Crown Ethers, by Martin Kaller and Sabine Laschat Star-Shaped Mesogens – Hekates: The Most Basic Star Structure with Three Branches, by Matthias Lehmann DNA-Based Soft Phases, by Tommaso Bellini, Roberto Cerbino and Giuliano Zanchetta Polar and Apolar Columnar Phases Made of Bent-Core Mesogens, by N. Vaupotič, D. Pociecha and E. Gorecka Spontaneous Achiral Symmetry Breaking in Liquid Crystalline Phases, by H. Takezoe Nanoparticles in Liquid Crystals and Liquid Crystalline Nanoparticles, by Oana Stamatoiu, Javad Mirzaei, Xiang Feng and Torsten Hegmann Stimuli-Responsive Photoluminescent Liquid Crystals, by Shogo Yamane, Kana Tanabe, Yoshimitsu Sagara and Takashi Kato
Practical, detailed and personalized journal, designed to help you organize your extensive or budding crystal collection! Crystals have long been celebrated for their beauty, healing and metaphysical properties. Many of us collect them. These collections tend to grow fast and, as much as we want to keep track of all of the beautiful gems, sometimes it becomes a challenge.Hopefully this journal will bring a little order to your marvelous treasury of gems! The page numbers and the table of contents make for easy, convenient and fun logging of gems!
This book provides the first comprehensive description of time crystals which have a repeating structure in time. It introduces the fundamental concepts behind time crystals and explores the many different branches of this new research area. The book starts with the original idea of the time crystallization in quantum systems as introduced by Wilczek and follows the development of the field up to the present day. Both spontaneous formation of crystalline structures in time and concepts of the condensed matter physics in the time domain, ranging from Anderson localization in time to many-body systems with exotic interactions, are described. The prospect of creation of novel objects by means of time engineering is also presented. The book assumes knowledge of quantum mechanics to the graduate level. It serves as a valuable reference with pointers to future research directions for graduate students and senior scientists alike.
This volume offers an overview of the growth of shaped crystals (oxides, fluorides, etc.) by the micro-pulling-down technique. Both melt and solution (flux) growth are considered. The advantages and disadvantages of the method are discussed in detail and compared with related crystal-growth processes. The authors attempt to give a practical introduction to this technique, thereby also explaining how its application can help to solve problems commonly encountered in other melt-growth methods.
Experiments and problems to be done by the non-specialist to aid in his understanding of crystals.
The aim of this book is to give a unified and critical account of the fundamental aspects of liquid crystals. Preference is given to discussing the assumptions made in developing theories and analyzing experimental data rather than to attempting to compile all the latest results. The book has four parts. Part I is quite descriptive in character and gives a general overview of the various liquid crystalline phases. Part II deals with the macroscopic continuum theory of liquid crystals and gives a systematic development of the theory from a tensorial point of view thus emphasizing the relevant symmetries. Part III concentrates on experiments that provide microscopic information on the orientational behaviour of the molecules. Finally Part IV discusses the theory of the various phases and their attendant phase transitions from both a Landau and a molecular-statistical point of view. Simplifying the various models as far as possible, it critically examines the merits of a molecular-statistical approach.
A "must-have" for materials engineers, chemists, physicists, and geologists, this is one of the first "coffee-table" books in the field of glass science. Containing over fifty beautiful micrographs, the book reflects 35 years of original research by a highly regarded authority in the field. It contains 50 slides culled from tens of thousands of images on glass crystal nucleation, growth, and crystallization. The images represent glass crystallization mechanisms, including internal, surface, homogeneous, heterogeneous, and eutectic, crystal nucleation and growth.
The two-word title of this book can only give an indication about its content and approach to the subject it deals with. In the course of time, the term has gradually become somewhat blurred. The reason is easy to see: similar problems are now more and more frequently studied by different branches of natural science. The term "mixed crystals" has acquired specific connotations in physics, chemistry, biology, and geology. One and the same term can now serve as a name for things which are either not quite the same or sometimes quite different. And this is precisely what happened to the two words in the title of the book. One of them, the term "crystal", for which crystallography had an un ambiguous definition, is now employed by biologists to describe the structure of cell membranes and by chemists who use it to denote degrees of polymer crystallinity. "Crystal" has thus become a broad term that can help describe any solid, or just a condensed state of a substance, if the solid has a suf ficient degree of order in the arrangement of its components. But the book is called "~lixed Crystals". The other word in its title, the adjective "mixed", has also developed several meanings. It is now thought ap plicable to both homogeneous and heterogeneous systems, that is, to crystals composed of different molecules and also to solids that are a mixture of crys tals with different structures.