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Optics
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Introduction to Modern Optics
A complete basic undergraduate course in modern optics for students in physics, technology, and engineering. The first half deals with classical physical optics; the second, quantum nature of light. Solutions.
Optics Light For A New Age
Describes the wonders of light and optics, exploring such developments as lasers, fiber optics, and holography.
Optics F2f
This textbook on optics introduces key concepts of wave optics and light propagation. The book highlights topics in contemporary optics such as propagation, dispersion and apodisation. The principles are applied through worked examples, and the book is copiously illustrated with more than 240 figures and 200 end-of-chapter exercises.
Electromagnetism
Electromagnetism Electromagnetism, Second Edition is suitable for a first course in electromagnetism, whilst also covering many topics frequently encountered in later courses. The material has been carefully arranged and allows for flexibility in its use for courses of different length and structure. A knowledge of calculus and an elementary knowledge of vectors is assumed, but the mathematical properties of the differential vector operators are described in sufficient detail for an introductory course, and their physical significance in the context of electromagnetism is emphasised. In this Second Edition the authors give a fuller treatment of circuit analysis and include a discussion of th...
Physics
While the text covers the standard range of material from kinematics to quantum physics, Hecht has carefully limited the math required to basic calculus and very basic vector analysis. He omits obscure, high-level topics, while focusing on helping students understand the fundamental concepts of modern-day physics. Calculus and vector analysis are both painstakingly developed as tools, and then used only insofar as they illuminate the physics. Hecht deliberately goes slowly, justifies where each topic is going, stops to take stock of where the students have been, and points out the marvelous unity of the discourse. Informed by a 20th century perspective and a commitment to providing a conceptual overview of the discipline, this book is a return to basics.
Optics
Accurate, comprehensive and precise, this revision provides students with the most up-to-date coverage of optics. Responsive to students' needs, the focus of the revision was to fine-tune the pedagogy, modernize the discourse, and update the content. This book continues the gradually modernizing treatment of the previous edition by imparting an appreciation of the central role of atomic scattering, providing an understanding of the insightful perspective offered by the Fourier Theory, and by, from the outset, explicating the underlying quantum mechanical nature of light. Additionally, Hecht addresses all of today's significant technological advances.
Principles of Optics
Principles of Optics is one of the most highly cited and most influential physics books ever published, and one of the classic science books of the twentieth century. To celebrate the 60th anniversary of this remarkable book's first publication, the seventh expanded edition has been reprinted with a special foreword by Sir Peter Knight. The seventh edition was the first thorough revision and expansion of this definitive text. Amongst the material introduced in the seventh edition is a section on CAT scans, a chapter on scattering from inhomogeneous media, including an account of the principles of diffraction tomography, an account of scattering from periodic potentials, and a section on the so-called Rayleigh–Sommerfield diffraction theory. This expansive and timeless book continues to be invaluable to advanced undergraduates, graduate students and researchers working in all areas of optics.
After the Fire
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Physics
Hecht brings to bear the perspective of both historical concepts and contemporary physics. While the text covers the standard range of material from kinematics to quantum physics, Hecht has carefully limited the math required to basic calculus and very basic vector analysis. He omits obscure, high-level topics while focusing on helping students understand the fundamental concepts of modern-day physics. Calculus and vector analysis are both painstakingly developed as tools, and then used only insofar as they illuminate the physics. Hecht deliberately paces comfortably, justifies where each topic is going, stops to take stock of where the students have been, and points out the marvelous unity of the discourse. Informed by a 20th century perspective and a commitment to providing a conceptual overview of the discipline, Hecht's CALCULUS 2/e keeps students involved and focused.
