Jay R. Yablon
May17-08, 05:02 AM
Hello to all:
I am trying to calculate exact solutions to Dirac's equation for a
wavefunction of the general form
psi ppp N exp [-(1/2)Ax^2 + Bx -V(x)] (1)
I have made a start in the five page document linked below: (right
click to download, then open, if the link does not work directly)
http://jayryablon.files.wordpress.com/2008/05/self-interacting-dirac-solution-10.pdf
These material, in essence, specify the wavefunction (1) in a form more
suitable for obtaining Dirac solutions, and then seek to remove
x-dependencies so that it is possible to solve Dirac's equation to
obtain the Dirac spinors u(p), not u(p,x).
Before I get too deeply into this, I would like your comments on these
materials. If these are substantially correct or correctable, then I
will proceed on to the next stages of development.
Thanks,
Jay.
____________________________
Jay R. Yablon
Email: jyablon@nycap.rr.com
co-moderator: sci.physics.foundations
Weblog: http://jayryablon.wordpress.com/
Web Site: http://home.nycap.rr.com/jry/FermionMass.htm
I am trying to calculate exact solutions to Dirac's equation for a
wavefunction of the general form
psi ppp N exp [-(1/2)Ax^2 + Bx -V(x)] (1)
I have made a start in the five page document linked below: (right
click to download, then open, if the link does not work directly)
http://jayryablon.files.wordpress.com/2008/05/self-interacting-dirac-solution-10.pdf
These material, in essence, specify the wavefunction (1) in a form more
suitable for obtaining Dirac solutions, and then seek to remove
x-dependencies so that it is possible to solve Dirac's equation to
obtain the Dirac spinors u(p), not u(p,x).
Before I get too deeply into this, I would like your comments on these
materials. If these are substantially correct or correctable, then I
will proceed on to the next stages of development.
Thanks,
Jay.
____________________________
Jay R. Yablon
Email: jyablon@nycap.rr.com
co-moderator: sci.physics.foundations
Weblog: http://jayryablon.wordpress.com/
Web Site: http://home.nycap.rr.com/jry/FermionMass.htm