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Imagining the Tenth Dimension: A New Way of Thinking About Time and Space
Reality, today's physicists tell us, is created by the vibrations of exquisitely tiny superstrings in ten spatial dimensions. Ten dimensions? Most of us have barely gotten used to the idea that there are four.
Using simple geometry and an easygoing writing style, author Rob Bryanton starts with the lower dimensions that we are... | | Unconventional Computation: 10th International Conference, UC 2011, Turku, Finland, June 6-10
The 10th International Conference on Unconventional Computation, UC 2011,
was organized under the auspices of EATCS and Academia Europaea, by the
Department of Mathematics of the University of Turku (Turku, Finland), and the
Center for Discrete Mathematics and Theoretical Computer Science (Auckland,
New Zealand). The event was held in... | | |
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Quantum Chemistry, Third EditionLowe's new edition assumes little mathematical or physical sophistication and emphasizes an understanding of the techniques and results of quantum chemistry. It can serve as a primary text in quantum chemistry courses, and enables students and researchers to comprehend the current literature. This third edition has been thoroughly updated and... | | Reversible Computing
The present book is dedicated to Dr. Rolf Landauer, whose early work on the subject
of reversible computing inspired me to begin more than 15 years of research
in this special corner of computer science. Twice I had the privilege to meet him
personally: once inWest Berlin (1992) and once in Boston (1996). Twice he encouraged
me... | | |
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Field Emission in Vacuum Microelectronics (Microdevices)
The field electron emission (FEE) is a unique quantum-mechanical effect of electrons tunneling
from a condensed matter (solid or liquid) into vacuum. The efficiency of this emission
process is tens of millions of times higher than in other known emission processes. The
extremely high current density in FEE and the fact that no... | | Classical And Quantum Dissipative SystemsThis book discusses issues associated with the quantum mechanical formulation of dissipative systems. It begins with an introductory review of phenomenological damping forces, and the construction of the Lagrangian and Hamiltonian for the damped motion. It is shown, in addition to these methods, that classical dissipative forces can also be derived... | | |
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