
Give the Gift of Choice!
Too many options? Treat your friends and family to their favourite stores with a Bayshore Shopping Centre gift card, redeemable at participating retailers throughout the centre. Click below to purchase yours today!Purchase HereHome
Introduction to Quantum Materials
Coles
Loading Inventory...
Introduction to Quantum Materials in Ottawa, ON
By None
Current price: $167.99


By None
Introduction to Quantum Materials in Ottawa, ON
Current price: $167.99
Loading Inventory...
Size: Hardcover
*Product information may vary - to confirm product availability, pricing, shipping and return information please contact Coles
Written for beginning graduate and advanced undergraduate students, the textbook introduces concepts such as topological systems, Weyl and Majorana symmetries in solids, Berry’s phase and coherent boundary conditions, Wilczek time crystals, anyons, and Dirac fermions. With that, the book closes the gap between traditional solid state physics textbooks and more technology- and device-oriented overviews for advanced professionals. By using basic, well-established solid-state models coupled with intuitive physical reasoning and detailed and annotated mathematical appendices, the textbook enables its readers to connect their knowledge from introductory quantum mechanics and solid-state physics courses with the advanced concepts put forward in courses on quantum materials.
Written for beginning graduate and advanced undergraduate students, the textbook introduces concepts such as topological systems, Weyl and Majorana symmetries in solids, Berry’s phase and coherent boundary conditions, Wilczek time crystals, anyons, and Dirac fermions. With that, the book closes the gap between traditional solid state physics textbooks and more technology- and device-oriented overviews for advanced professionals. By using basic, well-established solid-state models coupled with intuitive physical reasoning and detailed and annotated mathematical appendices, the textbook enables its readers to connect their knowledge from introductory quantum mechanics and solid-state physics courses with the advanced concepts put forward in courses on quantum materials.

















