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Generalized Entanglement and Quantum Phase Transitions



Rolando Somma, Howard Barnum, Emanuel Knill, Gerardo Ortiz, Lorenza Viola


Effective visualizations can help researchers obtain a more complete understanding of high-level mathematical functions that arise in mathematics, statistics, physics, fluid dynamics and other fields of the mathematical and physical sciences. Accordingly, dynamic interactive 3D graphs of function surfaces will be a key feature of the NIST digital Library of Mathematical Functions, a new Web-based compendium of mathematical functions that will replace a popular but dated resource, the National Bureau of Standards Handbook of Mathematical functions, published by Abramowitz and Stegun in 1964. As developers of commercial packages are well aware, creating software to accurately plot complicated 3D surfaces can be a challenging task. This paper looks at the effectiveness of modifying an algebraic tensor product spline grid generation technique, whose design was originally motivated by problems in aerodynamics and solidification theory, to create computational grids for accurate visualizations of 3D surfaces that capture key function features such as poles, branch cuts, and other singularities.
International Journal of Modern Physics B


Somma, R. , Barnum, H. , Knill, E. , Ortiz, G. and Viola, L. (2006), Generalized Entanglement and Quantum Phase Transitions, International Journal of Modern Physics B (Accessed April 18, 2024)
Created July 29, 2006, Updated October 12, 2021