Timeline for A non-elliptic PDE

4 events

when toggle format	what		by	license	comment
Oct 1, 2010 at 15:05	comment	added	Vamsi		Einstein summation implied above. Also $\frac{\partial}{\partial z} = \frac{\partial}{\partial x} - i\frac{\partial}{\partial y}$
Oct 1, 2010 at 15:03	comment	added	Vamsi		Dennis, $\partial (\omega _{IJ} dz^{I} \wedge dz^{\bar{J}} = \frac{\partial \omega _{IJ}}{\partial z^k} dz^k \wedge dz^{I} \wedge dz^{\bar{J}}$ and $\bar{\partial} (\omega _{IJ} dz^{I} \wedge dz^{\bar{J}} = \frac{\partial \omega _{IJ}}{\partial \bar{z}^k} d\bar{z}^k \wedge dz^{I} \wedge dz^{\bar{J}}$
Oct 1, 2010 at 7:15	comment	added	Denis Serre		Could you explain the notations ? You are from the community of complex analysis, and people from classical PDEs may not understand. Thanks.
Sep 30, 2010 at 20:18	history	asked	Vamsi	CC BY-SA 2.5