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.

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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.
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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.
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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