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The Empty Wave Effect: Noncommutative Nonlocal Negentropy antigravity force Ghost Wave revealed now
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"It is common to establish an analogy between these pilot-waves
and 3D radio-waves, which are nearly devoided of energy but carry nevertheless information to which we may have access after an amplification process. Here we show that this analogy is limited"
"Bohm was in particular fully aware of the necessity to develop
the pilot wave interpretation in configuration space and never questioned this peculiarity; de Broglie on the contrary has never been very enthusiastic about the idea of a dynamics in configuration space, and persistently tried to develop a pilot wave in real, 3D space, in the spirit of the semi-classical theory outlined here in section 1. Several clues indicate that, actually, de Broglie was always reluctant to recognize the long range implications of entanglement [18, 19], although he was the first in 1926 to recognize these implications at the level of the guidance
equation [12].
Do(es the influence of) empty waves survive in configuration
space? 2022
Thomas Durt
"However, whenever we consider at least two photons, entanglement is likely to be present, and a classical description `a la Maxwell in the physical, 3-d space must be replaced by a description in the configuration space.
citing F. Selleri. Wave-Particle Duality: Recent Proposals for the Detection of Empty Waves
in Schommers, W. (eds) Quantum Theory and Pictures of Reality. Springer, Berlin,
Heidelberg, 1989:
"In the same paper, F.Selleri wrote, about Einstein’s photon that ...A problem immediately coming to mind with Einstein’s philosophy is the following: If the localized particle carries all the energy and momentum, in which sense can the wave be considered real? This problem was felt so acutely by Einstein that he referred to these waves a Gespenterfelder (ghost fields): An object without energy and momentum is in fact unable to exert
a pressure when impinging on a material surface, which means that it does not have that quality that makes us call something real. Still, the equations of the quantum theory describe this wave as propagating in space and time.
The difficulties associated with the concept of an empty wave(...) have led many people to discard the idea as a scientific impossibility(...). It will be shown in the present chapter that the previous objection can be overcome because not only changes in energy and momentum can be observed, but modifications of probabilities as well. The last sentence also applies to the present paper.
-
"When Bohm updated the pilot wave interpretation in 1952 [13, 14], he was the first to reformulate the EPR paradox in terms of spin 1/2 particles, a result which played an essential role in the genesis of Bell’s inequalities as Bell recognized later. From this point of view, Bohm was the first (and not de Broglie) to appreciate and to fully recognize the non-local character of quantum correlations between entangled systems, which is manifest at the level of the guidance equation (18).
if empty waves are used to carry information, they are likely to suffer less from dissipation than their non-empty, corpuscular counterpart. A potential application would be long distance quantum communication, which justifies the theoretical bet made here concerning the possible existence of an “empty wave effect”.
"In de Broglie–Bohm theory, the past is connected with the future through particle trajectories and in the delayed choice experiment the particle swaps wave packets through the region of interference where the packets from each slit overlap; the particle received by a particular detector has actually passed through the slit it is not looking at.
"But, Bohm argued, that if quantum non locality implies a preferred frame (in which the nonlocal connection could be described as instantaneous) this does not conflict with relativistic requirements provided that the preferred frame is not experimentally distinguishable.
and 3D radio-waves, which are nearly devoided of energy but carry nevertheless information to which we may have access after an amplification process. Here we show that this analogy is limited"
"Bohm was in particular fully aware of the necessity to develop
the pilot wave interpretation in configuration space and never questioned this peculiarity; de Broglie on the contrary has never been very enthusiastic about the idea of a dynamics in configuration space, and persistently tried to develop a pilot wave in real, 3D space, in the spirit of the semi-classical theory outlined here in section 1. Several clues indicate that, actually, de Broglie was always reluctant to recognize the long range implications of entanglement [18, 19], although he was the first in 1926 to recognize these implications at the level of the guidance
equation [12].
Do(es the influence of) empty waves survive in configuration
space? 2022
Thomas Durt
"However, whenever we consider at least two photons, entanglement is likely to be present, and a classical description `a la Maxwell in the physical, 3-d space must be replaced by a description in the configuration space.
citing F. Selleri. Wave-Particle Duality: Recent Proposals for the Detection of Empty Waves
in Schommers, W. (eds) Quantum Theory and Pictures of Reality. Springer, Berlin,
Heidelberg, 1989:
"In the same paper, F.Selleri wrote, about Einstein’s photon that ...A problem immediately coming to mind with Einstein’s philosophy is the following: If the localized particle carries all the energy and momentum, in which sense can the wave be considered real? This problem was felt so acutely by Einstein that he referred to these waves a Gespenterfelder (ghost fields): An object without energy and momentum is in fact unable to exert
a pressure when impinging on a material surface, which means that it does not have that quality that makes us call something real. Still, the equations of the quantum theory describe this wave as propagating in space and time.
The difficulties associated with the concept of an empty wave(...) have led many people to discard the idea as a scientific impossibility(...). It will be shown in the present chapter that the previous objection can be overcome because not only changes in energy and momentum can be observed, but modifications of probabilities as well. The last sentence also applies to the present paper.
-
"When Bohm updated the pilot wave interpretation in 1952 [13, 14], he was the first to reformulate the EPR paradox in terms of spin 1/2 particles, a result which played an essential role in the genesis of Bell’s inequalities as Bell recognized later. From this point of view, Bohm was the first (and not de Broglie) to appreciate and to fully recognize the non-local character of quantum correlations between entangled systems, which is manifest at the level of the guidance equation (18).
if empty waves are used to carry information, they are likely to suffer less from dissipation than their non-empty, corpuscular counterpart. A potential application would be long distance quantum communication, which justifies the theoretical bet made here concerning the possible existence of an “empty wave effect”.
"In de Broglie–Bohm theory, the past is connected with the future through particle trajectories and in the delayed choice experiment the particle swaps wave packets through the region of interference where the packets from each slit overlap; the particle received by a particular detector has actually passed through the slit it is not looking at.
"But, Bohm argued, that if quantum non locality implies a preferred frame (in which the nonlocal connection could be described as instantaneous) this does not conflict with relativistic requirements provided that the preferred frame is not experimentally distinguishable.
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