Domain coloring
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Domain coloring is a technique for visualizing functions of a complex variable. The term "domain coloring" was coined by Frank Farris [1] possibly around 1998. But the technique of using continuous color to map points from domain to codomain or image plane was used in 1999 by George Abdo and Paul Godfrey [2] and colored grids were used in graphics by Doug Arnold that he dates to 1997 [3].
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[edit] Motivation
[edit] Insufficient dimensions
A real function 
(for example f(x) = x2) can be graphed using two Cartesian coordinates on a plane.
A graph of a complex function 
of one complex variable lives in a space with two complex dimensions. Since complex plane itself is two dimensional, a graph of a complex function is an object in four real dimensions. That makes complex functions difficult to visualize in our three dimensional space. One way of depicting holomorphic functions is with a Riemann surface.
[edit] Visual Encoding of complex numbers
Given a complex number z = reiθ, the phase (also known as argument) θ can be represented by hue, and the modulus r = | z | is represented by either intensity or variations in intensity. The arrangement of hues is arbitrary, but often it follows the color wheel. Sometimes the phase is represented by a specific gradient rather than hue.
[edit] Example
The following image depicts the sine function w = sin(z) from − 2π to 2π on the real axis and − 1.5 to 1.5 on the imaginary axis.
[edit] References
[1] [2] [3] http://www.ima.umn.edu/~arnold/complex.html
- ^ Hans Lundmark (2004). Visualizing complex analytic functions using domain coloring (HTML). Retrieved on 2006-05-25. Ludmark refers to Farris' coining the term "domain coloring" in this 2004 article.
- ^ George Abdo & Paul Godfrey (1999). Plotting functions of a complex variable: Table of Conformal Mappings Using Continuous Coloring (HTML). Retrieved on 2008-05-17.
- ^ Douglas N. Arnold (2008). Graphics for complex analysis (HTML). Retrieved on 2008-05-17.
