Two-Circles Theorem, Q-Periodic Functions and Entangled Qubit States
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Date
2014
Authors
Pashaev, Oktay
Journal Title
Journal ISSN
Volume Title
Publisher
IOP Publishing Ltd.
Open Access Color
GOLD
Green Open Access
Yes
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No
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Top 10%
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Abstract
For arbitrary hydrodynamic flow in circular annulus we introduce the two circle theorem, allowing us to construct the flow from a given one in infinite plane. Our construction is based on q-periodic analytic functions for complex potential, leading to fixed scale-invariant complex velocity, where q is determined by geometry of the region. Self-similar fractal structure of the flow with q-periodic modulation as solution of q-difference equation is studied. For one point vortex problem in circular annulus by fixing singular points we find solution in terms of q-elementary functions. Considering image points in complex plane as a phase space for qubit coherent states we construct Fibonacci and Lucas type entangled N-qubit states. Complex Fibonacci curve related to this construction shows reach set of geometric patterns.
Description
Physics and Mathematics of Nonlinear Phenomena 2013, PMNP 2013; Gallipoli; Italy; 22 June 2013 through 29 June 2013
Keywords
Periodic structures, Difference equations, Fractals, Phase space methods, Quantum entanglement, Quantum entanglement, Difference equations, Fractals, Periodic structures, Phase space methods
Fields of Science
0103 physical sciences, 01 natural sciences
Citation
Pashaev, O. (2014). Two-circles theorem, q-periodic functions and entangled qubit states. Journal of Physics: Conference Series, 482(1). doi:10.1088/1742-6596/482/1/012033
WoS Q
N/A
Scopus Q
Q3
OpenCitations Citation Count
6
Source
Journal of Physics: Conference Series
Volume
482
Issue
1
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CrossRef : 4
Scopus : 11
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