- #1
feng
- 4
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Hi all,
I have a pair of partial differential equations which arose from a study of Dirac equation in a scalar background,
I have tried some methods but still can't work out.
-\partial_z\partial_{\bar{z}}u + 2i\partial_{\bar{z}}\theta\partial_z u + m^2u=0
-\partial_z\partial_{\bar{z}}v - 2i\partial_{z}\theta\partial_{\bar{z}} v + m^2v=0
Where \theta = 2\arctan[\exp(2m(ze^{i\phi} + \bar{z}e^{-i\phi}))] is a solution of the
doubled elliptic sine-Gordon equation. m > 0 and \phi is a real parameter.
The domain is the whole complex plane.
First of all, does any solution exist? And is there any method to solve it?
I am not familiar with the theory of partial differential equation. Any help will be appreciated.
Thanks.
I have a pair of partial differential equations which arose from a study of Dirac equation in a scalar background,
I have tried some methods but still can't work out.
-\partial_z\partial_{\bar{z}}u + 2i\partial_{\bar{z}}\theta\partial_z u + m^2u=0
-\partial_z\partial_{\bar{z}}v - 2i\partial_{z}\theta\partial_{\bar{z}} v + m^2v=0
Where \theta = 2\arctan[\exp(2m(ze^{i\phi} + \bar{z}e^{-i\phi}))] is a solution of the
doubled elliptic sine-Gordon equation. m > 0 and \phi is a real parameter.
The domain is the whole complex plane.
First of all, does any solution exist? And is there any method to solve it?
I am not familiar with the theory of partial differential equation. Any help will be appreciated.
Thanks.
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