|
related topics |
{particle, mechanics, theory} |
{bell, inequality, local} |
{theory, mechanics, state} |
{measurement, state, measurements} |
{state, phys, rev} |
{time, systems, information} |
{key, protocol, security} |
{force, casimir, field} |
{operator, operators, space} |
{photon, photons, single} |
|
Causal Quantum Theory and the Collapse Locality Loophole
Adrian Kent
abstract: Causal quantum theory is an umbrella term for ordinary quantum theory
modified by two hypotheses: state vector reduction is a well-defined process,
and strict local causality applies. The first of these holds in some versions
of Copenhagen quantum theory and need not necessarily imply practically
testable deviations from ordinary quantum theory. The second implies that
measurement events which are spacelike separated have no non-local
correlations. To test this prediction, which sharply differs from standard
quantum theory, requires a precise theory of state vector reduction.
Formally speaking, any precise version of causal quantum theory defines a
local hidden variable theory. However, causal quantum theory is most naturally
seen as a variant of standard quantum theory. For that reason it seems a more
serious rival to standard quantum theory than local hidden variable models
relying on the locality or detector efficiency loopholes.
Some plausible versions of causal quantum theory are not refuted by any Bell
experiments to date, nor is it obvious that they are inconsistent with other
experiments. They evade refutation via a neglected loophole in Bell experiments
-- the {\it collapse locality loophole} -- which exists because of the possible
time lag between a particle entering a measuring device and a collapse taking
place. Fairly definitive tests of causal versus standard quantum theory could
be made by observing entangled particles separated by $\approx 0.1$ light
seconds.
- oai_identifier:
- oai:arXiv.org:quant-ph/0204104
- categories:
- quant-ph
- comments:
- Discussion expanded; typos corrected; references added
- doi:
- 10.1103/PhysRevA.72.012107
- arxiv_id:
- quant-ph/0204104
- journal_ref:
- Phys. Rev. A 72, 012107 (2005)
- created:
- 2002-04-18
- updated:
- 2005-03-23
Full article ▸
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