Your search keyword '"Stenholm S"' showing total 7 results

1. Photon filters in a microwave cavity

Author

Larson, J. and Stenholm, S.

Subjects

Condensed Matter::Quantum Gases, Quantum Physics, FOS: Physical sciences, Quantum Physics (quant-ph), Atomic and Molecular Physics, and Optics

Abstract

In an earlier paper we have concluded that time-dependent parameters in atom-mode interaction can be utilized to modify the quantum field in a cavity. When an atom shoots through the cavity field, it is expected to experience a trigonometric time dependence of its coupling constant. We investigate the possibilities this offers to modify the field. As a point of comparison we use the solvable Rosen-Zener model, which has parameter dependencies roughly similar to the ones expected in a real cavity. We do confirm that by repeatedly sending atoms through the cavity, we can obtain filters on the photon states. Highly non-classical states can be obtained. We find that the Rosen-Zener model is more sensitive to the detuning than the case of a trigonometric coupling., 9 pages, 5 figures

Published

2003

2. Causal signal transmission by quantum fields -- V: Generalised Keldysh rotations and electromagnetic response of the Dirac sea

Author

Plimak, L I and Stenholm, S

Subjects

High Energy Physics - Theory, Quantum Physics, High Energy Physics - Theory (hep-th), FOS: Physical sciences, Mathematical Physics (math-ph), Quantum Physics (quant-ph), Mathematical Physics

Abstract

The connection between real-time quantum field theory (RTQFT) [see, e.g., A.\ Kamenev and A.\ Levchenko, Advances in Physics {58} (2009) 197] and phase-space techniques [E.\ Wolf and L.\ Mandel, {\em Optical Coherence and Quantum Optics} (Cambridge, 1995)] is investigated. The Keldysh rotation that forms the basis of RTQFT is shown to be a phase-space mapping of the quantum system based on the symmetric (Weyl) ordering. Following this observation, we define generalised Keldysh rotations based on the class of operator orderings introduced by Cahill and Glauber [Phys.\ Rev.\ {177} (1969) 1882]. Each rotation is a phase-space mapping, generalising the corresponding ordering from free to interacting fields. In particular, response transformation [L.P.\ and S.S., Ann.\ Phys. (N.Y.) {323} (2008) 1989] extends the normal ordering of free-field operators to the time-normal ordering of Heisenberg\ operators. Structural properties of the response transformation, such as its association with the nonlinear quantum response problem and the related causality properties, hold for all generalised Keldysh rotations. Furthermore, we argue that response transformation is especially suited for RTQFT formulation of spatial, in particular, relativistic, problems, because it extends cancellation of zero-point fluctuations, characteristic of the normal ordering, to interacting fields. As an example, we consider quantised electromagnetic\ field in the Dirac sea. In the time-normally-ordered representation, dynamics of the field looks essentially classical (fields radiated by currents), without any contribution from zero-point fluctuations. For comparison, we calculate zero-point fluctuations of the interacting electromagnetic\ field under orderings other than time-normal. The resulting expression is physically inconsistent: it does not obey the Lorentz condition, nor Maxwell's equations., Comment: Technically this is the final published version of quant-ph:1104.3809. In fact it is an independent paper which has little in common with that one

Published

2013

3. Causal signal transmission by quantum fields. Quantum electrodynamics in response representation

Author

Plimak, L. I. and Stenholm, S. T.

Subjects

High Energy Physics - Theory, Quantum Physics, Statistical Mechanics (cond-mat.stat-mech), High Energy Physics - Theory (hep-th), FOS: Physical sciences, Mathematical Physics (math-ph), Quantum Physics (quant-ph), Condensed Matter - Statistical Mechanics, Mathematical Physics

Abstract

Using electromagnetic interaction as an example, response transformations [L.P. and S.S., Ann.Phys. 323, 1963, 1989 (2008), 324, 600 (2009)] are applied to the standard perturbative approach of quantum field theory. This approach is rewritten in the form where the place of field propagators is taken by the retarded Green function of the field. Unlike in conventional quantum-field-theoretical techniques, the concept of space-time propagation of quantized field is built into our techniques., Comment: This manuscript is an early version of what later became Refs. [1,2]. Some of the discussions were also included in [3-5]. The "narrow-band" case remains unpublished

Published

2011

4. Causal signal transmission by quantum fields. Electromagnetic interaction of distinguishable devices and the optical equivalence theorem

Author

Plimak, L. I. and Stenholm, S.

Subjects

Quantum Physics, Statistical Mechanics (cond-mat.stat-mech), FOS: Physical sciences, Mathematical Physics (math-ph), Quantum Physics (quant-ph), Condensed Matter - Statistical Mechanics, Mathematical Physics

Abstract

Generalised phase-space techniques for electromagnetic interactions beyond the rotating wave approximation [L.P. and S.S., arXiv:1104.3825 (2011)] is applied to interactions of distinguishable devices. The paper is built around the concept of "doing quantum electrodynamics while thinking classically," which is a generalisation of Sudarshan's renowned optical equivalence theorem [E.C.G. Sudarshan, Phys. Rev. Lett. 10, 277 (1963)] to the interacting electromagnetic field. This concept allows one to reduce inherently quantum problems to semiclassical considerations., Comment: Title changed to eliminate conflict with the published papers

Published

2011

5. A Tensor Dirac Equation in Curved Space

Author

Nikolay Marchuk, Accardi, L., Adenier, G., Fuchs, Ca, Jaeger, G., Khrennikov, A., Larsson, Ja, and Stenholm, S.

Subjects

Mathematical analysis, Dirac algebra, Tetrad formalism, General Relativity and Quantum Cosmology, symbols.namesake, Dirac equation, symbols, Two-body Dirac equations, Mathematics::Differential Geometry, Dirac sea, Curved space, Klein–Gordon equation, Computer Science::Databases, Mathematical physics, Causal fermion system, Mathematics

Abstract

We suggest a tensor equation on Riemannian manifolds which can be considered as a generalization of the Dirac equation for the electron. The tetrad formalism is not used.

Published

2009

6. Cavity field ensembles from nonselective measurements

Author

Larson, J. and Stenholm, S.

Subjects

Quantum Physics, FOS: Physical sciences, Quantum Physics (quant-ph)

Abstract

We continue our investigations of cavity QED with time dependent parameters. In this paper we discuss the situation where the state of the atoms leaving the cavity is reduced but the outcome is not recorded. In this case our knowledge is limited to an ensemble description of the results only. By applying the Demkov-Kunike level-crossing model, we show that even in this case, the filtering action of the interaction allows us to prepare a preassigned Fock state with good accuracy. The possibilities and limitations of the method are discussed and some relations to earlier work are presented., Comment: 11 pages, 2 figures

Published

2003

7. The wave packet - a universal quantum object

Author

Stenholm, S. and Suominen, K. -A.

Subjects

Quantum Physics, FOS: Physical sciences, Quantum Physics (quant-ph), Computer Science::Databases

Abstract

We summarize the theoretical description of wave packets on molecular energy levels. We review the various quantum mechanical effects which can be studied and the models that can be verified on this system. This justifies our claim that the wave packet constitutes a universal quantum object., Comment: 8 pages, Latex+adacta.sty, 6 Postscript figures embedded using psfig

Published

1997