Marek Czachor
Published 2000-02-01, updated 2000-03-06Version 2
The paper is an extension of quant-ph/9912102. The new framework is tested on the 2-photon spontaneous emission and blackbody radiation. The new effects are rather subtle. The probability of the 2-photon emission is shown to consist of a product of several terms: One which is identical to this from standard quantum optics and the remaining ones formally resembling detector inefficiencies (here arising from nontrivial vacuum structure). The blackbody distribution is indistinguishable from the Planck law for T<T_{critical} but for T>T_{critical} the maximum of the distribution gets lowered and shifts towards higher frequencies. T_{critical} is a parameter that, in principle, should be observable. No normal ordering of operators is needed and vacuum energy is nonzero but finite. Vacuum is represented by a subspace spanned by ground states of the oscillators and is not equivalent to the cyclic vector of the GNS construction. The non-CCR algebra is discussed in more detail.
Comments: revtex, 21 pages, 3 eps figures; the multi-oscillator part is generalized and the non-CCR algebra is appropriately modified; several details are worked out
Journal: J.Phys.A33:8081-8104,2000
Field quantization by means of a single harmonic oscillator
Cavity-QED tests of representations of canonical commutation relations employed in field quantization
Field Quantization, Photons and Non-Hermitean Modes
