drew hempel
05-14-2008, 01:07 PM
Today I discovered a new book: Quanta by J. Andrade e Silva and G. Lochak. Well it was published in 1969 by World University Library. But, amazingly, it subscribes to a Louis de Broglie angle on the pilot wave, a more recent one which I hadn't known about (since it's been suppressed). Nevertheless what de Broglie discovered is something that I also have considered.
So I did a bit of searching to see what happened with it and sure enough there's a recent paper which is totally amazing stating that indeed there's no scientific reason not to believe in what are normally called
"Ghostfields" -- or superliminal, faster-than-light quantum waves.
This acknowledgement by mainstream physicists totally boggles the mind -- it's an EXACT affirmation of what shamans have been experiencing .
On the Physical Reality of Quantum Waves
Journal Foundations of Physics
Publisher Springer Netherlands
ISSN 0015-9018 (Print) 1572-9516 (Online)
Issue Volume 34, Number 11 / November, 2004
DOI 10.1007/s10701-004-1309-y
Pages 1675-1694
Subject Collection Physics and Astronomy
SpringerLink Date Tuesday, March 15, 2005
PDF (215.2 KB)
On the Physical Reality of Quantum Waves
Gennaro Auletta1 Contact Information and Gino Tarozzi1 Contact Information
(1) Institute of Philosophy, University of Urbino, Urbino, 610 29, Italy
Received: 12 September 2004
The main interpretations of the quantum-mechanical wave function are presented emphasizing how they can be divided into two ensembles: The ones that deny and the other ones that attribute a form of reality to quantum waves. It is also shown why these waves cannot be classical and must be submitted to the restriction of the complementarity principle. Applying the concept of smooth complementarity, it is shown that there can be no reason to attribute reality only to the events and not to the wave or to the initial state of a given system. Thereafter, an experiment proposed by the authors is presented, where it is shown that the wave-like behaviour allows predictions that are not allowed on the grounds of a particle-like behaviour. In conclusion, we upheld that quantum waves must be real even if they do not belong to the same ontological level of events, which connected with particle detections.
Keywords complementarity - ghostfield - virtual field - potentiality - empty wave
Institute of Philosophy, University of Urbino, Urbino 610 29, Italy; tarizzi@uniurb.it
Contact Information Gennaro Auletta
Email: mdo509@mclink.it
Contact Information Gino Tarozzi
Email: tarizzi@uniurb.it
References
Jammer, M. (1966) The Conceptual Development of Quantum Mechanics, 2, McGraw-Hill, New York
Comment: Thomas Publications, 1989
Heisenberg, W. (1927) "Über den anschaulichen Inhalt der quantentheoretischen Kinematik und Mechanik" Z. Phys. 43: 172-198
Born, M. (1926) "Quantenmechanik der Stoß vorgänge" Z. Phys. 38: 803-827
Comment: (Reprint. in [24, II, pp. 233–257].)
Born, M. (1926) "Die Adiabatenprinzip in der Quantenmechanik" Z. Phys. 40: 167-192
Comment: (Reprint. in [24, II, pp. 258–283].)
Born, M. (1927) "Quantenmechanik und Statistik" Naturwiss 15: 238-242
Comment: (Reprint. in [24, II, pp. 299–309].)
E. P. Wigner, Remarks on the mind-body question, in The Scientist Speculates. I. J. Good, ed., (London , Heinemann, 1961), 284–302. (Reprint. in [40, 168–181].).
Zeilinger, A. (2004) "Why the Quantum? It from bit? A partecipatory universe?: Three Far–Reaching Visionary Questions from John Archibald Wheeler and How They Inspired a Quantum Experimentalist" In: Barrow, J. D., Davies, P.C. W., Harper, C. L. Jr. eds. , Science and Ultimate Reality: Quantum Theory, Cosmology and Complexity, Cambridge University Press, Cambridge
Bohr, N. (1928) "The Quantum Postulate and the recent development of atomic theory" Nature 121: 580-590
Bohr, N., Kramers, H. A., Slater, J. C. (1924) "Über die Quantentheorie der Strahlung" Z. Phys. 24: 69-87
Bothe, W., Geiger, H. (1924) "Ein Weg zur experimentellen Nachprüfung der Theorie von Bohr, Kramers and Slater" Z. Phys. 26: 44
Bothe, W., Geiger, H. (1925) "Experimentelles zur Theorie von Bohr, Kramers and Slater" Naturwiss 13: 440-441
Bothe, W., Geiger, H. (1925) "Über das Wesen des Comptoneffekts; ein experimenteller Beitrag zur Theorie der Strahlung" Z. Phys. 32: 639-663
Compton, A. H., Simon, A. W. (1925) "Directed quanta of scattered x–rays" Phys. Rev 26: 289-299
Schrödinger, E. (1927) "Energieaustausch nach der Wellenmechanik" Ann. Phys. 83: 956-968
Schrödinger, E. (1952) "Are There Quantum Jumps? I–II" The Br. Jour. Philos. Soc. 3: 233-242
Jammer, M. (1974) The Philosophy of Quantum Mechanics. The Interpretation of Quantum Mechanics in Historical Perspective, Wiley, New York
de Broglie, L. (1927) "La structure de la matière et du rayonnement et la mécanique ondulatoire" Compt. Rend. lrsquoAc. Soc. 184: 273-274
de Broglie, L. (1927) Compt. Rend. lrsquoAc. Soc. 185: 380-382
de Broglie, L. (1927) J. de Phys. 8: 225-241
de Broglie, L. (1955) "Une interprétation nouvelle de la mécanique ondulatoire est-elle possible?" Nuovo Cimento 1: 37-50
de Broglie, L. (1956) Une tentative drsquoInterpretation Causale et Non-linéaire de la Mécanique ondulatoire, Gauthier-Villars, Paris
Bialynicki-Birula, I., Mycielski, J. (1976) "Nonlinear Wave Mechanics" Ann. Phys. 100: 62-93
Shimony, A. (1979) "Proposed neutron interferometer test of some non-linear variants of Wave Mechanics" Phys. Rev. A20: 394-396
Shull, C. G., Atwood, D. K., Arthur, J., Horne, M. A. (1980) "Search for a nonlinear variant of the Schrödinger equation by neutron interferometry" Phys. Rev. Lett. 44: 765-768
Bialynicki-Birula, I., Cieplak, M., Kaminski, J. (1992) Theory of Quanta, University Press, Oxford
Bohm, D. (1952) "A suggested interpretation of the quantum theory in terms of lsquohidden variables" Phys. Rev. 85: 166-193
G. Auletta, Foundations and Interpretation of Quantum Mechanics. In the Light of a Critical-Historical Analysis of the Problems and of a Synthesis of the Results (World Scientific, Singapore, 2000; revised edn. 2001).
Selleri, F. (1982) "On the direct observability of quantum waves" Found. Phys. 12: 1087-1112
Bohr, N. (1987) "Atoms and human knowledge" In: Bohr, N. eds. , Philosophical Writings, vol. II., Ox Bow Press, Woodbridge, Connecticut, 1958–1963, pp 83-93
Elitzur, A. C., Vaidman, L. (1993) "Quantum Mechanical interaction–free measurements" Found. Phys. 23: 987-997
Bohr, N. (1958) "Quantum Physics and philosophy" In: Kilbansky, R. eds. , Philosophy in the Mid-Century., Firenze, La Nuova, Italia
Comment: (Reprint. in [22, III, 1–7].)
Born, M. (1964) Natural Philosophy of cause and chance, Dover, New York
Heisenberg, W. (1958) Physics and Philosophy, Harper, New York
Selleri, F. (1969) "On the Wave Function of quantum mechanics" Lett. Nuovo Cimento 1: 908-910
Garuccio, A., Popper, K., Vigier, J.-P. (1981) Phys. Lett. 86A: 397
Garuccio, A., Rapisarda, V., Vigier, J.-P. (1982) "Next experimental set-up for the detection of de Broglie waves" Phys. Lett. 90A: 17-19
Tarozzi, G. (1985) "Experimental tests of the properties of the quantum–mechanical wave function" Lett. Nuovo Cimento 42: 438-442
Croca, J. R. (1987) "Neutron interferometry can prove (or refute) the existence of de Brogliersquos waves" Found. Phys. 17: 971-980
Badurek, G., Rauch, H., Summhammer, J. (1983) "Time-dependent superposition of spinors" Phys. Rev. Lett. 51: 1015-1018
J.-P. Vigier, C. Dewdney, P. R. Holland and A. Kyprianidis, lsquolsquoCausal particle trajectories and the interpretation of quantum mechanicsrsquorsquo, in Quantum Implications: Essays in Honor of David Bohm. B. J. Hiley and F. D. Peat, eds., (Routledge, London, 1987, 1991, 1994), pp. 169–204.
Mittelstaedt, P., Prieur, A., Schieder, R. (1987) "Unsharp particle-wave duality in a photon split-beam experiment" Found. Phys. 17: 891-903
W. Wootters and W. H. Zurek, lsquolsquoComplementarity in the double-slit experiment: Quantum non separability and a quantitative statement of Bohrrsquos principlersquorsquo, Phys. Rev. D19, 473–484.
Greenberger, D. M., Yasin, A. (1988) "Simultaneous wave and particle knowledge in a neutron interferometer" Phys. Lett. 128A: 391-394
Englert, B.-G. (1996) "Fringe visibility and which-way information: An inequalityrsquolsquo" Phys. Rev. Lett. 77: 2154-2157
Zou, X. Y., Grayson, T. P., Wang, L. J., Mandel, L. (1992) "Can an empty de Broglie pilot wave induce oherence?" Phys. Rev. Lett. 68: 3667-3669
Wang, L. J., Zou, X. Y., Mandel, L. (1991) "Experimental test of the Broglie guided-wave theory for photons" Phys. Rev. Lett. 66: 1111-1114
Hardy, L. (1992) "On the existence of empty waves in quantum theory" Phys. Lett. 167A: 11-16
Monroe, C., Meekhof, D. M., King, B. E., Wineland, D. J. (1996) "A lsquoSchrödinger Catrsquo superposition state of an atom" Science 272: 1131-1136
AMS
M. Brune, E. Hagley, J. Dreyer, X. Maitre, A. Maali, C. Wunderlich, J. M. Raimond and S. Haroche, lsquolsquoObserving the progressive decoherence of the lsquometerrsquo in a quantum measurementrsquorsquo, Phys. Rev. Lett. 77, 4887–4890 (1996).
Zurek, W. H. (1982) "Pointer Basis of quantum apparatus: Into what mixture does the wave packet collapse?" Phys. Rev. D24: 1516-1525
Zurek, W. H. (1982) "Environment-induced Superselection Rules" Phys. Rev. D26: 1862-1880
G. Auletta, lsquolsquoQuantum information as a general paradigmrsquorsquo, submitted to Found. Phys.
Auletta, G., Tarozzi, G. (2004) "Wavelike correlations versus path detection: Another form of complementarity" Found. Phys. Lett. 17: 889-895
J. A. Wheeler, lsquolsquoThe lsquopastrsquo and the lsquodelayed-choicersquo Double-Slit Experimentrsquorsquo, Mathematical Foundations of Quantum Theory. in A. R. Marlow, ed., (Academic Press, New York, 1978), pp. 9–48.
DrsquoAriano, G. M., Yuen, H. P. (1996) "Impossibility of measuring the wave function of a single quantum system" Phys. Rev. Lett. 76: 2832-2835
CrossRef
G. Auletta, lsquolsquoQuantum information and inferential reasoningrsquorsquo, submitted to Found. Phys.
Bohr, N. (1987) Philosophical Writings, Ox Bow Press, Woodbridge, Connecticut, 1958–1963
Born, M. (1963) Ausgewählte Abhandlungen, Vandehoeck and Ruprecht, Göttingen
Wheeler, J. A., Zurek, W. H. (1983) Quantum Theory and Measurement, Princeton, University Press
So I did a bit of searching to see what happened with it and sure enough there's a recent paper which is totally amazing stating that indeed there's no scientific reason not to believe in what are normally called
"Ghostfields" -- or superliminal, faster-than-light quantum waves.
This acknowledgement by mainstream physicists totally boggles the mind -- it's an EXACT affirmation of what shamans have been experiencing .
On the Physical Reality of Quantum Waves
Journal Foundations of Physics
Publisher Springer Netherlands
ISSN 0015-9018 (Print) 1572-9516 (Online)
Issue Volume 34, Number 11 / November, 2004
DOI 10.1007/s10701-004-1309-y
Pages 1675-1694
Subject Collection Physics and Astronomy
SpringerLink Date Tuesday, March 15, 2005
PDF (215.2 KB)
On the Physical Reality of Quantum Waves
Gennaro Auletta1 Contact Information and Gino Tarozzi1 Contact Information
(1) Institute of Philosophy, University of Urbino, Urbino, 610 29, Italy
Received: 12 September 2004
The main interpretations of the quantum-mechanical wave function are presented emphasizing how they can be divided into two ensembles: The ones that deny and the other ones that attribute a form of reality to quantum waves. It is also shown why these waves cannot be classical and must be submitted to the restriction of the complementarity principle. Applying the concept of smooth complementarity, it is shown that there can be no reason to attribute reality only to the events and not to the wave or to the initial state of a given system. Thereafter, an experiment proposed by the authors is presented, where it is shown that the wave-like behaviour allows predictions that are not allowed on the grounds of a particle-like behaviour. In conclusion, we upheld that quantum waves must be real even if they do not belong to the same ontological level of events, which connected with particle detections.
Keywords complementarity - ghostfield - virtual field - potentiality - empty wave
Institute of Philosophy, University of Urbino, Urbino 610 29, Italy; tarizzi@uniurb.it
Contact Information Gennaro Auletta
Email: mdo509@mclink.it
Contact Information Gino Tarozzi
Email: tarizzi@uniurb.it
References
Jammer, M. (1966) The Conceptual Development of Quantum Mechanics, 2, McGraw-Hill, New York
Comment: Thomas Publications, 1989
Heisenberg, W. (1927) "Über den anschaulichen Inhalt der quantentheoretischen Kinematik und Mechanik" Z. Phys. 43: 172-198
Born, M. (1926) "Quantenmechanik der Stoß vorgänge" Z. Phys. 38: 803-827
Comment: (Reprint. in [24, II, pp. 233–257].)
Born, M. (1926) "Die Adiabatenprinzip in der Quantenmechanik" Z. Phys. 40: 167-192
Comment: (Reprint. in [24, II, pp. 258–283].)
Born, M. (1927) "Quantenmechanik und Statistik" Naturwiss 15: 238-242
Comment: (Reprint. in [24, II, pp. 299–309].)
E. P. Wigner, Remarks on the mind-body question, in The Scientist Speculates. I. J. Good, ed., (London , Heinemann, 1961), 284–302. (Reprint. in [40, 168–181].).
Zeilinger, A. (2004) "Why the Quantum? It from bit? A partecipatory universe?: Three Far–Reaching Visionary Questions from John Archibald Wheeler and How They Inspired a Quantum Experimentalist" In: Barrow, J. D., Davies, P.C. W., Harper, C. L. Jr. eds. , Science and Ultimate Reality: Quantum Theory, Cosmology and Complexity, Cambridge University Press, Cambridge
Bohr, N. (1928) "The Quantum Postulate and the recent development of atomic theory" Nature 121: 580-590
Bohr, N., Kramers, H. A., Slater, J. C. (1924) "Über die Quantentheorie der Strahlung" Z. Phys. 24: 69-87
Bothe, W., Geiger, H. (1924) "Ein Weg zur experimentellen Nachprüfung der Theorie von Bohr, Kramers and Slater" Z. Phys. 26: 44
Bothe, W., Geiger, H. (1925) "Experimentelles zur Theorie von Bohr, Kramers and Slater" Naturwiss 13: 440-441
Bothe, W., Geiger, H. (1925) "Über das Wesen des Comptoneffekts; ein experimenteller Beitrag zur Theorie der Strahlung" Z. Phys. 32: 639-663
Compton, A. H., Simon, A. W. (1925) "Directed quanta of scattered x–rays" Phys. Rev 26: 289-299
Schrödinger, E. (1927) "Energieaustausch nach der Wellenmechanik" Ann. Phys. 83: 956-968
Schrödinger, E. (1952) "Are There Quantum Jumps? I–II" The Br. Jour. Philos. Soc. 3: 233-242
Jammer, M. (1974) The Philosophy of Quantum Mechanics. The Interpretation of Quantum Mechanics in Historical Perspective, Wiley, New York
de Broglie, L. (1927) "La structure de la matière et du rayonnement et la mécanique ondulatoire" Compt. Rend. lrsquoAc. Soc. 184: 273-274
de Broglie, L. (1927) Compt. Rend. lrsquoAc. Soc. 185: 380-382
de Broglie, L. (1927) J. de Phys. 8: 225-241
de Broglie, L. (1955) "Une interprétation nouvelle de la mécanique ondulatoire est-elle possible?" Nuovo Cimento 1: 37-50
de Broglie, L. (1956) Une tentative drsquoInterpretation Causale et Non-linéaire de la Mécanique ondulatoire, Gauthier-Villars, Paris
Bialynicki-Birula, I., Mycielski, J. (1976) "Nonlinear Wave Mechanics" Ann. Phys. 100: 62-93
Shimony, A. (1979) "Proposed neutron interferometer test of some non-linear variants of Wave Mechanics" Phys. Rev. A20: 394-396
Shull, C. G., Atwood, D. K., Arthur, J., Horne, M. A. (1980) "Search for a nonlinear variant of the Schrödinger equation by neutron interferometry" Phys. Rev. Lett. 44: 765-768
Bialynicki-Birula, I., Cieplak, M., Kaminski, J. (1992) Theory of Quanta, University Press, Oxford
Bohm, D. (1952) "A suggested interpretation of the quantum theory in terms of lsquohidden variables" Phys. Rev. 85: 166-193
G. Auletta, Foundations and Interpretation of Quantum Mechanics. In the Light of a Critical-Historical Analysis of the Problems and of a Synthesis of the Results (World Scientific, Singapore, 2000; revised edn. 2001).
Selleri, F. (1982) "On the direct observability of quantum waves" Found. Phys. 12: 1087-1112
Bohr, N. (1987) "Atoms and human knowledge" In: Bohr, N. eds. , Philosophical Writings, vol. II., Ox Bow Press, Woodbridge, Connecticut, 1958–1963, pp 83-93
Elitzur, A. C., Vaidman, L. (1993) "Quantum Mechanical interaction–free measurements" Found. Phys. 23: 987-997
Bohr, N. (1958) "Quantum Physics and philosophy" In: Kilbansky, R. eds. , Philosophy in the Mid-Century., Firenze, La Nuova, Italia
Comment: (Reprint. in [22, III, 1–7].)
Born, M. (1964) Natural Philosophy of cause and chance, Dover, New York
Heisenberg, W. (1958) Physics and Philosophy, Harper, New York
Selleri, F. (1969) "On the Wave Function of quantum mechanics" Lett. Nuovo Cimento 1: 908-910
Garuccio, A., Popper, K., Vigier, J.-P. (1981) Phys. Lett. 86A: 397
Garuccio, A., Rapisarda, V., Vigier, J.-P. (1982) "Next experimental set-up for the detection of de Broglie waves" Phys. Lett. 90A: 17-19
Tarozzi, G. (1985) "Experimental tests of the properties of the quantum–mechanical wave function" Lett. Nuovo Cimento 42: 438-442
Croca, J. R. (1987) "Neutron interferometry can prove (or refute) the existence of de Brogliersquos waves" Found. Phys. 17: 971-980
Badurek, G., Rauch, H., Summhammer, J. (1983) "Time-dependent superposition of spinors" Phys. Rev. Lett. 51: 1015-1018
J.-P. Vigier, C. Dewdney, P. R. Holland and A. Kyprianidis, lsquolsquoCausal particle trajectories and the interpretation of quantum mechanicsrsquorsquo, in Quantum Implications: Essays in Honor of David Bohm. B. J. Hiley and F. D. Peat, eds., (Routledge, London, 1987, 1991, 1994), pp. 169–204.
Mittelstaedt, P., Prieur, A., Schieder, R. (1987) "Unsharp particle-wave duality in a photon split-beam experiment" Found. Phys. 17: 891-903
W. Wootters and W. H. Zurek, lsquolsquoComplementarity in the double-slit experiment: Quantum non separability and a quantitative statement of Bohrrsquos principlersquorsquo, Phys. Rev. D19, 473–484.
Greenberger, D. M., Yasin, A. (1988) "Simultaneous wave and particle knowledge in a neutron interferometer" Phys. Lett. 128A: 391-394
Englert, B.-G. (1996) "Fringe visibility and which-way information: An inequalityrsquolsquo" Phys. Rev. Lett. 77: 2154-2157
Zou, X. Y., Grayson, T. P., Wang, L. J., Mandel, L. (1992) "Can an empty de Broglie pilot wave induce oherence?" Phys. Rev. Lett. 68: 3667-3669
Wang, L. J., Zou, X. Y., Mandel, L. (1991) "Experimental test of the Broglie guided-wave theory for photons" Phys. Rev. Lett. 66: 1111-1114
Hardy, L. (1992) "On the existence of empty waves in quantum theory" Phys. Lett. 167A: 11-16
Monroe, C., Meekhof, D. M., King, B. E., Wineland, D. J. (1996) "A lsquoSchrödinger Catrsquo superposition state of an atom" Science 272: 1131-1136
AMS
M. Brune, E. Hagley, J. Dreyer, X. Maitre, A. Maali, C. Wunderlich, J. M. Raimond and S. Haroche, lsquolsquoObserving the progressive decoherence of the lsquometerrsquo in a quantum measurementrsquorsquo, Phys. Rev. Lett. 77, 4887–4890 (1996).
Zurek, W. H. (1982) "Pointer Basis of quantum apparatus: Into what mixture does the wave packet collapse?" Phys. Rev. D24: 1516-1525
Zurek, W. H. (1982) "Environment-induced Superselection Rules" Phys. Rev. D26: 1862-1880
G. Auletta, lsquolsquoQuantum information as a general paradigmrsquorsquo, submitted to Found. Phys.
Auletta, G., Tarozzi, G. (2004) "Wavelike correlations versus path detection: Another form of complementarity" Found. Phys. Lett. 17: 889-895
J. A. Wheeler, lsquolsquoThe lsquopastrsquo and the lsquodelayed-choicersquo Double-Slit Experimentrsquorsquo, Mathematical Foundations of Quantum Theory. in A. R. Marlow, ed., (Academic Press, New York, 1978), pp. 9–48.
DrsquoAriano, G. M., Yuen, H. P. (1996) "Impossibility of measuring the wave function of a single quantum system" Phys. Rev. Lett. 76: 2832-2835
CrossRef
G. Auletta, lsquolsquoQuantum information and inferential reasoningrsquorsquo, submitted to Found. Phys.
Bohr, N. (1987) Philosophical Writings, Ox Bow Press, Woodbridge, Connecticut, 1958–1963
Born, M. (1963) Ausgewählte Abhandlungen, Vandehoeck and Ruprecht, Göttingen
Wheeler, J. A., Zurek, W. H. (1983) Quantum Theory and Measurement, Princeton, University Press