Skew gradient

In mathematics, a skew gradient of a harmonic function over a simply connected domain with two real dimensions is a vector field that is everywhere orthogonal to the gradient of the function and that has the same magnitude as the gradient.

Definition

The skew gradient can be defined using complex analysis and the Cauchy–Riemann equations.

Let [math]\displaystyle{ f(z(x,y))=u(x,y)+iv(x,y) }[/math] be a complex-valued analytic function, where u,v are real-valued scalar functions of the real variables x, y.

A skew gradient is defined as:

[math]\displaystyle{ \nabla^\perp u(x,y)=\nabla v(x,y) }[/math]

and from the Cauchy–Riemann equations, it is derived that

[math]\displaystyle{ \nabla^\perp u(x,y)=(-\frac{\partial u}{\partial y},\frac{\partial u}{\partial x}) }[/math]

Properties

The skew gradient has two interesting properties. It is everywhere orthogonal to the gradient of u, and of the same length:

[math]\displaystyle{ \nabla u(x,y) \cdot \nabla^\perp u(x,y)=0 , \rVert \nabla u\rVert =\rVert \nabla^\perp u\rVert }[/math]

References

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