Dirac equations
This article describes several equations named after Paul Dirac.
Dirac operator
Given a Clifford algebra spanned by Dirac matrices such that
being the matrix of a quadratic form with signature (p,q), Dirac operator is given by
With a gauge connection this becomes
Maxwell-Dirac equation
[More info on this equation would be greatly appreciated. - Ed.]
This equation essentially reads
where is a spinor field (solving a coupled massive Dirac equation), and is the Dirac operator with connection A. We put in and in .
- Scaling is .
- When , there is GWP for small smooth data Chd1973
- When there is LWP for in the Coulomb gauge Bou1999, and for in the Lorenz gauge Bou1996
- For in the Coulomb gauge this is in Bou1996
- This has recently been improved by Selberg to . Note that for technical reasons, lower-regularity results do not automatically imply higher ones when the regularity of one field (e.g. ) is kept fixed.
- LWP for smooth data was obtained in Grs1966
- GWP for small smooth data was obtained in Ge1991
- When , GWP for small smooth data is known (Psarelli?)
There are no exact solutions known for these equations. Small perturbation theory is the only approach to solve them used so far.
In the nonrelativistic limit this equation converges to a Maxwell-Poisson system for data in the energy space BecMauSb-p2; furthermore one has a local well-posedness result which grows logarithmically in the asymptotic parameter. Earlier work appears in MasNa2003.
Dirac-Klein-Gordon equation
[More info on this equation would be greatly appreciated. - Ed.]
This equation essentially reads
where is a spinor field (solving a coupled massive Dirac equation), is the Dirac operator and is a scalar (real) field. We put in and in .
The energy class is essentially , but the energy density is not positive. However, the norm of is also positive and conserved..
- Scaling is .
- When there is GWP for Chd1973, Bou2000 and LWP for Bou2000.
- When there are some LWP results in Bou2001
Nonlinear Dirac equation
This equation essentially reads
where is a spinor field, is the mass, is a complex parameter, is the zeroth Pauli matrix, and is the spinor inner product.
- Scaling is (at least in the massless case ).
- In , LWP is known for when EscVe1997
- This can be improved to LWP in (and GWP for small data) if an epsilon of additional regularity as assumed in the radial variable MacNkrNaOz-p; in particular one has GWP for radial data.
- In , GWP is known for small data when MacNaOz-p2. Some results on the nonrelativistic limit of this equation are also obtained in that paper.