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| | | | Micromechanical Photonics (Microtechnology and MEMS)
The recent remarkable development of microsystems dates back to 1983 when
Richard P. Feynman of California University delivered a speech to a large
audience of scientists and engineers at the Jet Propulsion Laboratory. He presented
the concept of sacrificed etchingto fabricate a silicon micromotor, and
pointed out the need for... |
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| | Modern Quantum MechanicsRevised edition includes discussions of fundamental topics and newer developments such as neutron interferometer experiments, Feynman path integrals, correlation measurements, and Bell's inequality. DLC: Quantum theory.
J. J. Sakurai was always a very welcome guest here at CERN, for he was one of those rare theorists to whom the... | | |
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Relativistic Reality: A Modern View (Knots and Everything, Vol 12)This book has its origins in my leaving applied physics in 1969 to teach at a small college and ponder the foundations of physics without pressure, even if with limited time caused by a heavy teaching load. Richard Feynman had lectured weekly during the two years I spent at Hughes Labs in Malibu, after graduating from Engineering Physics at... | | Semantic Techniques in Quantum Computation
The idea of quantum computation, in the algorithmic sense, originated from the suggestion by Feynman (1982) that a computer based on the principles of quantum mechanics might be capable of efficiently simulating quantum systems of interest to physicists; such simulation seems to be very difficult with classical computers. Feynman’s... | | Atoms, Molecules, and Compounds (Essential Chemistry)
"Atoms, Molecules, and Compounds" goes behind the scenes of day-to-day chemistry to explore the atoms that govern chemical processes. In clear language, this exciting book shows how the interactions between simple substances such as salt and water are crucial to life on Earth and how those interactions are predestined by the atoms... |
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