Richmond surface

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In differential geometry, a Richmond surface is a minimal surface first described by Herbert William Richmond in 1904.^[1] It is a family of surfaces with one planar end and one Enneper surface-like self-intersecting end.

It has Weierstrass–Enneper parameterization ${\displaystyle f(z)=1/z^2,g(z)=z^m}$. This allows a parametrization based on a complex parameter as

${\displaystyle \begin{array}{cc}X(z)& =\mathrm{\Re }[(-1/2z)-z^{2m+1}/(4m+2)]\\ Y(z)& =\mathrm{\Re }[(-i/2z)+i{z}^{2m+1}/(4m+2)]\\ Z(z)& =\mathrm{\Re }[z^m/m]\end{array}}$

The associate family of the surface is just the surface rotated around the z-axis.

Taking m = 2 a real parametric expression becomes:^[2]

${\displaystyle \begin{array}{cc}X(u,v)& =(1/3)u^3-u{v}^2+\frac{u}{u^2+v^2}\\ Y(u,v)& =-u^{2}v+(1/3)v^3-\frac{v}{u^2+v^2}\\ Z(u,v)& =2u\end{array}}$

Template:Reflist

• Erhan Güler and Ömer Kişi, Richmond Minimal Yüzeyler Ailesi ve Cebirsel Yüzeyleri
• Erhan Güler and Ömer Kişi, (ζ−m, ζm)-Type Algebraic Minimal Surfaces in Three-Dimensional Euclidean Space

Template:Minimal surfaces