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In differential geometry, the associate family (or Bonnet family) of a minimal surface is a one-parameter family of minimal surfaces which share the same Weierstrass data. That is, if the surface has the representation

${\displaystyle x_{k}(\zeta )=\Re \left\{\int _{0}^{\zeta }\varphi _{k}(z)\,dz\right\}+c_{k},\qquad k=1,2,3}$

the family is described by

${\displaystyle x_{k}(\zeta ,\theta )=\Re \left\{e^{i\theta }\int _{0}^{\zeta }\varphi _{k}(z)\,dz\right\}+c_{k},\qquad \theta \in [0,2\pi ]}$

For θ = π/2 the surface is called the conjugate of the θ = 0 surface.^[1]

The transformation can be viewed as locally rotating the principal curvature directions. The surface normals of a point with a fixed ζ remains unchanged as θ changes; the point itself moves along an ellipse.

Some examples of associate surface families are: the catenoid and helicoid family, the Schwarz P, Schwarz D and gyroid family, and the Scherk's first and second surface family. The Enneper surface is conjugate to itself: it is left invariant as θ changes.

Conjugate surfaces have the property that any straight line on a surface maps to a planar geodesic on its conjugate surface and vice-versa. If a patch of one surface is bounded by a straight line, then the conjugate patch is bounded by a planar symmetry line. This is useful for constructing minimal surfaces by going to the conjugate space: being bound by planes is equivalent to being bound by a polygon.^[2]

There are counterparts to the associate families of minimal surfaces in higher-dimensional spaces and manifolds.^[3]

References

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