- #246
akhmeteli
- 818
- 40
But Hegerfeldt requires positivity of energy, and there is no positivity of energy, say, for the Dirac equation.Peter Morgan said:(concerning: "an analogous statement about a free relativistic particle somehow prepared at time t in a small region of spacetime suffers the same problem."
I have cited Hegerfeldt's https://arxiv.org/abs/quant-ph/9806036, which is general enough to include both relativistic and nonrelativistic cases because it depends only on positive energy. Reeh-Schlieder can be construed as essentially the same property for QFT. Also significant, in my view, is "Anti-Locality of Certain Lorentz-Invariant Operators", I. E. SEGAL and R. W. GOODMAN, Journal of Mathematics and Mechanics, Vol. 14, No. 4 (1965), pp. 629-638.
In another comment (also two weeks old), the locality of the retarded propagator was mentioned, but quantum field theory is mostly concerned with the propagator ##\int 2\pi\mathrm{e}^{\mathrm{i}k{\cdot}x}\delta(k{\cdot}k-m^2)\theta(k_0)\frac{\mathrm{d}k}{(2\pi)^4}## (noting the restriction to positive frequency, ##\theta(k_0)##, which puts it in the frame for Hegerfeldt's result), and its time-ordered variant, the Feynman propagator, both of which are nonlocal in that they are nonzero at space-like separation.