Which magnetic fields support a zero mode?

This paper presents some results concerning the size of magnetic fields that support zero modes for the three-dimensional Dirac equation and related problems for spinor equations. It is a well-known fact that for the Schrodinger equation in three dimensions to have a negative energy bound state, the 3/2 norm of the potential has to be greater than the Sobolev constant. We prove an analogous result for the existence of zero modes, namely that the 3/2 norm of the magnetic field has to greater than twice the Sobolev constant. The novel point here is that the spinorial nature of the wave function is crucial. It leads to an improved diamagnetic inequality from which the bound is derived. While the results are probably not sharp, other equations are analyzed where the results are indeed optimal.

Automated summary

This paper presents results on the size of magnetic fields that support zero modes for the three-dimensional Dirac equation and proves the norm condition for the existence of zero modes. The spinorial nature of the wave function is crucial in deriving an improved diamagnetic inequality.