Reeh-Schlieder Defeats Newton-Wigner: On alternative localization
schemes in relativistic quantum field theory
Halvorson, Hans
Many of the "counterintuitive" features of relativistic quantum
field theory have their formal root in the Reeh-Schlieder theorem, which
in particular entails that local operations applied to the vacuum state
can produce any state of the entire field. It is of great interest then
that I.E. Segal and, more recently, G. Fleming (in a paper entitled
"Reeh-Schlieder Meets Newton-Wigner") have proposed an alternative
"Newton-Wigner" localization scheme that avoids the Reeh-Schlieder
theorem. In this paper, I reconstruct the Newton-Wigner localization
scheme and clarify the limited extent to which it avoids the
counterintuitive consequences of the Reeh-Schlieder theorem. I also argue
that neither Segal nor Fleming has provided a coherent account of the
physical meaning of Newton-Wigner localization.
Reference: Phil.Sci. 68 (2001) 111-133,
e-print quant-ph/0007060
This paper in PostScript
jh,
Last modified: Son Feb 9 16:36:05 CET 2003