Bicylindrical coordinates
The numbers $ \tau , \sigma $
and $ z $
related to the rectangular Cartesian coordinates $ x, y $
and $ z $
by the formulas
$$ x = \frac{a \sinh \tau }{\cosh \tau - \cos \sigma } ,\ \ y = \frac{a \sin \sigma }{\cosh \tau - \cos \sigma } ,\ \ z = z, $$
where $ 0 \leq \sigma < \pi , -\infty < \tau < \infty $. The coordinate surfaces are: the family of pairs of circular cylinders with parallel axes ( $ \tau = \textrm{ const } $), the family of circular cylinders orthogonal to the former ( $ \sigma = \textrm{ const } $), and the planes ( $ z = \textrm{ const } $). The system of bicylindrical coordinates is obtained as the result of translation of the system of bipolar coordinates in the $ xy $- plane parallel to the $ z $- axis.
The Lamé coefficients (cf. Lamé coefficients) are:
$$ L _ \sigma = L _ \tau = \ \frac{a ^ {2} }{( \cosh \tau - \cos \sigma ) ^ {2} } ,\ \ L _ {z} = 1. $$
The Laplace operator is:
$$ \Delta f = \frac{1}{a ^ {2} } ( \cosh \tau - \cos \sigma ) ^ {2} \left ( \frac{\partial ^ {2} f }{\partial \sigma ^ {2} } + \frac{\partial ^ {2} f }{\partial \tau ^ {2} } \ \right ) + \frac{\partial ^ {2} f }{\partial z ^ {2} } . $$
Bicylindrical coordinates. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Bicylindrical_coordinates&oldid=46051