Tag Archives: qubit*

“Advanced Fluid Dynamics” ed. by Hyoung Woo Oh

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"Advanced Fluid Dynamics" ed. by Hyoung Woo Oh
InTeOpP | 2012 | ISBN: 9535102702 9789535102700 | 281 pages | PDF | 18 MB
This book is intended to serve as a reference text for presenting a broad range of topics on fluid dynamics to advanced scientists and researchers.
The chapters have been contributed by the prominent specialists in the field of fluid dynamics cover experimental and numerical fluid dynamics, aeroacoustics, multiphase flow analysis, convective instability, combustion, and turbulence modeling.

“Advanced Fluid Dynamics” ed. by Hyoung Woo Oh
1. An Experimental and Computational Study of the Fluid Dynamics of Dense Cooling Air-Mists
2. Direct Numerical Simulations of Compressible Vortex Flow Problems
3. Fluid Dynamics of Gas – Solid Fluidized Beds
4. Fuel Jet in Cross Flow – Experimental Study of Spray Characteristics
5. Influence of Horizontal Temperature Gradients on Convective Instabilities with Geophysical Interest
6. Internal Flows Driven by Wall-Normal Injection
7. Modelling of Turbulent Premixed and Partially Premixed Combustion
8. Multiscale Window Interaction and Localized Nonlinear Hydrodynamic Stability Analysis
9. Stability Investigation of Combustion Chambers with LES
10. Turbulent Boundary Layer Models: Theory and Applications
11. Unitary Qubit Lattice Gas Representation of 2D and 3D Quantum Turbulence
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Quantum Approach to Informatics

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Quantum Approach to Informatics by Stig Stenholm, Kalle-Antti Suominen
English | 2005 | ISBN: 0471736104 | 249 pages | PDF | 1.4 MB | English

Quantum Approach to Informatics
Information, whether inscribed as a mark on a stone tablet or encoded as a magnetic domain on a hard drive, must be stored in a physical object and thus made subject to the laws of physics. Traditionally, information processing such as computation occurred in a framework governed by laws of classical physics. However, information can also be stored and processed using the states of matter described by non-classical quantum theory. Understanding this quantum information, a fundamentally different type of information, has been a major project of physicists and information theorists in recent years, and recent experimental research has started to yield promising results.

fills the need for a concise introduction to this burgeoning new field, offering an intuitive approach for readers in both the physics and information science communities, as well as in related fields. Only a basic background in quantum theory is required, and the text keeps the focus on bringing this theory to bear on contemporary informatics. Instead of proofs and other highly formal structures, detailed examples present the material, making this a uniquely accessible introduction to quantum informatics.

Topics covered include:
* An introduction to quantum information and the qubit
* Concepts and methods of quantum theory important for informatics
* The application of information concepts to quantum physics
* Quantum information processing and computing
* Quantum gates
* Error correction using quantum-based methods
* Physical realizations of quantum computing circuits

A helpful and economical resource for understanding this exciting new application of quantum theory to informatics, provides students and researchers in physics and information science, as well as other interested readers with some scientific background, with an essential overview of the field.

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