Theory of dendritic growth in three dimensions

A treatment is given relating the growth velocity, tip radius and overpotential for an electrolytic dendrite, taken to be a moving paraboloid of revolution. The equation is fitted to the recent data of Barton and Bockris on silver dendrites growing in NaNOa-KNO~ eutectic. To achieve a fit, the activ

For the standard dendrite-model with Ivantsov-approximation in three dimensions we study the linear stability with respect to cylindrically symmetric modes. The results are qualitatively similar to the two-dimensional case. For P&let-numbers p s IO-' we find a sidebranch-spacing of ~2.8 times the ti

## Abstract We have developed a computational method that accurately reproduces the three‐dimensional (3D) morphology of individual dendritic trees of six cat alpha motoneurons. The first step was simulation of trees with straight branches based on the branch lengths and topology of actual trees. A

The growth of sidebranches of xenon dendrites has been studied in a 3D experiment. Sidebranches grow at the ridges of the four fins of the nonaxisymmetric crystal. They can be initiated by selective amplification of thermal noise (type N) or by a macroscopic perturbation (type P). Both types of side