Operator ordering and causality beyond the rotating wave approximation

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Published 12 October 2011 Europhysics Letters Association
, , Citation L. I. Plimak and S. T. Stenholm 2011 EPL 96 34002 DOI 10.1209/0295-5075/96/34002

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Author affiliations

1 Institut für Quantenphysik, Universität Ulm - D-89069 Ulm, Germany, EU

2 Physics Department, Royal Institute of Technology, KTH - Stockholm, Sweden, EU

3 Laboratory of Computational Engineering, HUT - Espoo, Finland, EU

Dates

  1. Received 9 August 2011
  2. Accepted 7 September 2011
  3. Published
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Abstract

Conventional definition of the time-normal operator ordering (Kelley P. L. and Kleiner W. H., Phys. Rev., 136 (1964) A316) is prone to causality violations (de Haan M., Physica A, 132 (1985) 375; 397). We show that such violations disappear if this definition is amended outside the rotating wave approximation. Nonrelativistic causality of an arbitrary time-normal product turns out to be a property of quantum kinematics, while relativistic causality is demonstrated for a time-normal product of two operators under the most general assumptions about quantum dynamics (commutativity of operators at space-like intervals). This eliminates the key obstacle preventing phase-space techniques of quantum optics from being extended to arbitrary quantum fields including fermions.

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