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References

1
Blanchard, Ph., and Jadczyk, A. Ed. Quantum Future, Proceedings of the X-th Max Born Symposium, to appear, Springer 1999
2
Stapp, H.P.: Quantum Ontology and Mind-Matter Synthesis., also available from http://www-physics.lbl.gov/stapp/stappfiles.html
3
Good, I.J.: The Scientist Speculates, Heineman, 1962
4
Schrödinger, E.: The Philosophy of Experiment, Il Nuovo Cimento, 1 (1955), 5-15
5
Jadczyk, A.: Particle Tracks, Events and Quantum Theory, Progr. Theor. Phys. 93 (1995) 631-646, available from hep-th/9407157
6
Jadczyk, A.: On Quantum Jumps, Events and Spontaneous Localization Models, Found. Phys. 25 1995)743-762, available from hep-th/9408020
7
Bell, J. : Against measurement, in Sixty-Two Years of Uncertainty. Historical, Philosophical and Physical Inquiries into the Foundations of Quantum Mechanics, Proceedings of a NATO Advanced Study Institute, August 5-15, Erice, Ed. Arthur I. Miller, NATO ASI Series B vol. 226 , Plenum Press, New York 1990
8
Bell, J. : Towards an exact quantum mechanics, in Themes in Contemporary Physics II. Essays in honor of Julian Schwinger's 70th birthday, Deser, S. , and Finkelstein, R. J. Ed. , World Scientific, Singapore 1989
9
Haag, R.: Irreversibility introduced on a fundamental level, Commun. Math. Phys. 123 (1990) 245-251
10
Haag, R.: Thought of the Synthesis of Quantum Physics and General Relativity and the Role of Space-time, Nucl. Phys. B18 (1990) 135-140
11
Haag, R.: An Evolutionary Picture for Quantum Physics, Commun. Math. Phys. 180 (1996) 733-743
12
Haag, R.: Local Quantum Physics 2nd rev. and enlarged ed. (1996), Ch. VII: Principles and lessons of Quantum Physics. A Review of Interpretations, Mathematical Formalism and Perspective.
13
Haag, R.: Objects, Events and Localization , in [1]
14
Deutsch, D.: The Fabric of Reality, Allen Lane The Penguin Press, 1997
15
Wolf, F.A.: Parallel Universes, Touchstone, New York 1990
16
Blanchard, Ph. and Jadczyk, A.: On the interaction between classical and quantum systems, Phys. Lett. A 175 (1993), 157-164
17
Blanchard, Ph., and A. Jadczyk.: Event-Enhanced-Quantum Theory and Piecewise Deterministic Dynamics, Ann. der Physik 4 (1995) 583-599,
18
Blanchard, Ph., and Jadczyk, A.: Events and Piecewise Deterministic Dynamics in Event-Enhanced Quantum Theory, Phys. Lett. A203 (1995), 260-266
19
Blanchard, Ph., Jadczyk, A.: Time of Events in Quantum Theory, Helv. Phys. Acta 69 (1996) 613-635, also available as quant-ph/9602010,
20
Haroche, S.: Observing the decoherence of the meter in a measurement: a variation on Schrodinger's cat experiment, in [1]
21
Walther. H.: Quantum Optics of a Single Atom, in [1]
22
Ekert, A.: Web page of Centre of Quantum Computation of the University of Oxford, URL address http://www.qubit.org/intros/crypt.html
23
Benjamin, S., and Ekert, A.: as above, URL address http://www.qubit.org/Intros_Tuts.html
24
Palao, J. P., Muga, J.G., Brouard, S. and Jadczyk, A.: Barrier traversal times using a phenomenological track formation model, Phys. Lett. A 233 (1997) 227-232
25
Rushhaupt, A.: Simulations of Barrier Traversal and Reflection Times based on EEQT, Phys. Lett A 250, (Dec. 1998?), 249-256 (Dec. 1998?)
26
Jadczyk, A., Kondrat, G. and Olkiewicz, R. : On uniqueness of the jump process in quantum measurement theory, J. Phys. A 30 (1996) 1-18, available from quant-ph/9512002
27
Gorini, V. , Kossakowski, A. and Sudarshan, E. C. G. : Completely positive dynamical semigroups of N-level systems, J. Math. Phys. 17 (1976), 821-825
28
Lindblad, G. : On the Generators of Quantum Mechanical Semigroups, Comm. Math. Phys. 48 (1976), 119-130
29
Arveson, W. B. : "Subalgebras of tex2html_wrap_inline720 -algebras", Acta Math. 123 (1969), 141-224
30
Christensen, E. and Evans, D. : Cohomology of operator algebras and quantum dynamical semigroups, J. London. Math. Soc. 20 (1978), 358-368
31
Relativistic Quantum Events, Found. Phys. 26 (1996) 1669-1681
32
Barnsley, M.F.: Fractals Everywhere, Academic Press, Boston 1988
33
Jadczyk, A.: IFS Signatures of Quantum States, IFT Uni Wroclaw, internal report, September 1993.
34
Jastrzebski, G.: Ph.D. thesis (in Polish); Jadczyk, A., and Jastrzebski, G.: Chaos from Quantum Mesurements, to be published.
35
Ghirardi, Gian-Carlo - in this volume, for a recent popular account see also internet URL address http://www.newscientist.co.uk/ns/970426/features.html
36
Bohm, D., and Hiley, B.:The Undivided Universe, Routledge, London 1994
37
Davis, M. H. A. : Lectures on Stochastic Control and Nonlinear Filtering, Tata Institute of Fundamental Research, Springer Verlag, Berlin 1984
38
Davis, M. H. A. : Markov models and optimization, Monographs on Statistics and Applied Probability, Chapman and Hall, London 1993
39
Olkiewicz, R. : Some mathematical problems related to classical-quantum interactions,
Rev. Math. Phys. 9 (1997), 719-747
40
Einstein, A., and Rosen, N.: Phys. Rev. 48, (1935), 73-77
41
Jadczyk, A.: Vanishing Vierbein in Gauge Theories of Gravitation, preprint ITF Uni. Goettingen, August 1982, available from http://www.ift.uni.wroc.pl/ ajad/jadpub.htm
42
Coquearaux, R., and Jadczyk, A.: Riemannian Geometry Fiber Bundles Kaluza-Klein Theories and All that ... ., , World Scientific, Lecture Notes in Phys. 16, (1988)
43
Nottale, P.:Scale Relativity and Fractal Space-Time: Applications to Quantum Physics, Cosmology and Chaotic Systems, Chaos, Solitons and Fractals 7 (1996) 877-938
44
On the Way to Understanding the Time Phenomenon. The Construction of Time in Natural Science. Part 2: The "Active" Properties of Time According to N.A. Kozyrev., World Scientific, Series on Advances in Mathematics for Applied Sciences - Vol. 3, (1996)
45
Sakharov, A. D. Vacuum Quantum Fluctuations in Curved Space and the Theory of Gravitation, Dokl. Akad. Nauk. SSSR (Sov. Phys. - Dokl.) 12 (1968) 1040
46
Frolov, V.P., and Novikov, I.D.: Physical effects in wormholes and time machine, Phys. Rev. D42 (1990), 1057-1065
47
Guts, A.K.: Time machine as four-dimensional wormhole, available from gr-qc/ 9612064; cf. also references therein.
48
Eganova, I.A.:The World of Events Reality, book, to appear 1999
49
Blanchard, Ph. and Jadczyk, A.: Strongly coupled quantum and classical systems and Zeno's effect, Phys. Lett. A 183 (1993) 272-276

50
Blanchard, Ph. and Jadczyk, A.: Event-Enhanced Formalism of Quantum Theory or Columbus Solution to the Quantum Measurement Problem, in Quantum Communications and Measurement, Edited by V.P. Belavkin, Plenum Press, New York 1995, pp. 223-233
51
Jadczyk, A.: Topics in Quantum Dynamics, in Infinite Dimensional Geometry, Noncommutative Geometry, Operator Algebras and Fundamental Interactions, pp. 59-93, ed. R.Coquereaux et al., World Scientific, Singapore 1995, hep-th 9406204
52
Blanchard, Ph. and Jadczyk, A.: Classical and quantum intertwine, in Proceedings of the Symposium on Foundations of Modern Physics, Cologne, June 1993, Ed. P. Bush et al., World Scientific (1993), pp 65-76, hep-th/9309112
53
Blanchard, Ph. and Jadczyk, A.: How and When Quantum Phenomena Become Real, in Proc. Third Max Born Symp. Stochasticity and Quantum Chaos, Sobotka 1993, pp. 13-31, Eds. Z. Haba et all. , Kluwer Publ. 1994
54
Blanchard, Ph. and Jadczyk, A.: Quantum Mechanics with Event Dynamics, Rep.Math.Phys. 36 (1995) 235-244
55
Blanchard, Ph., Jadczyk, A., and Olkiewicz, R.: The Piecewise Deterministic Process Associated to EEQT, Preprint Uni. Bielefeld Forschungszentrum BiBoS, Nr. 802/4/98

  
Figure: Barnsley iterated function system on the unit sphere of a two-dimensional Hilbert space - resulting from simultaneous monitoring of four non-commuting components of a spin. The four spin components are situated at the corners of a regular tetrahedron. View from the North Pole - which is one of the tetrahedron's corners.



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