How events come into being: EEQT, particle tracks, quantum chaos and tunnelling time

Blanchard P, Jadczyk A, Ruschhaupt A (2000)
JOURNAL OF MODERN OPTICS 47(12): 2247-2263.

Zeitschriftenaufsatz | Veröffentlicht | Englisch
 
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Autor*in
Blanchard, PhilippeUniBi; Jadczyk, A; Ruschhaupt, A
Abstract / Bemerkung
We review Event Enhanced Quantum Theory (EEQT), discuss applications of EEQT to tunnelling time, and compare its quantitative predictions with other approaches, in particular with phase time and the Buttiker-Larmor approach. We discuss quantum chaos and quantum fractals resulting from simultaneous continuous monitoring of several non-commuting observables. In particular we show self-similar, nonlinear, iterated function system-type, patterns arising from quantum jumps and from the associated Markov operator.
Erscheinungsjahr
2000
Zeitschriftentitel
JOURNAL OF MODERN OPTICS
Band
47
Ausgabe
12
Seite(n)
2247-2263
ISSN
0950-0340
eISSN
1362-3044
Page URI
https://pub.uni-bielefeld.de/record/1619014

Zitieren

Blanchard P, Jadczyk A, Ruschhaupt A. How events come into being: EEQT, particle tracks, quantum chaos and tunnelling time. JOURNAL OF MODERN OPTICS. 2000;47(12):2247-2263.
Blanchard, P., Jadczyk, A., & Ruschhaupt, A. (2000). How events come into being: EEQT, particle tracks, quantum chaos and tunnelling time. JOURNAL OF MODERN OPTICS, 47(12), 2247-2263. https://doi.org/10.1080/09500340008235146
Blanchard, Philippe, Jadczyk, A, and Ruschhaupt, A. 2000. “How events come into being: EEQT, particle tracks, quantum chaos and tunnelling time”. JOURNAL OF MODERN OPTICS 47 (12): 2247-2263.
Blanchard, P., Jadczyk, A., and Ruschhaupt, A. (2000). How events come into being: EEQT, particle tracks, quantum chaos and tunnelling time. JOURNAL OF MODERN OPTICS 47, 2247-2263.
Blanchard, P., Jadczyk, A., & Ruschhaupt, A., 2000. How events come into being: EEQT, particle tracks, quantum chaos and tunnelling time. JOURNAL OF MODERN OPTICS, 47(12), p 2247-2263.
P. Blanchard, A. Jadczyk, and A. Ruschhaupt, “How events come into being: EEQT, particle tracks, quantum chaos and tunnelling time”, JOURNAL OF MODERN OPTICS, vol. 47, 2000, pp. 2247-2263.
Blanchard, P., Jadczyk, A., Ruschhaupt, A.: How events come into being: EEQT, particle tracks, quantum chaos and tunnelling time. JOURNAL OF MODERN OPTICS. 47, 2247-2263 (2000).
Blanchard, Philippe, Jadczyk, A, and Ruschhaupt, A. “How events come into being: EEQT, particle tracks, quantum chaos and tunnelling time”. JOURNAL OF MODERN OPTICS 47.12 (2000): 2247-2263.
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