Add to ORKGA possible mechanism of nonlinear quantum evolution is introduced and its implications for quantum communication are investigated. First, it is argued that an appropriate combination of wavefunction collapse and the consciousness of observer may permit the observer to distinguish nonorthogonal quantum states in principle, and thus consciousness will introduce certain nonlinearity into quantum dynamics. Next, it is shown that the distinguishability of nonorthogonal states can be used to achieve quantum superluminal communication, by which information can be transmitted nonlocally and faster than the speed of light. Finally, the issue of apparent incompatibility between superluminal communication and special relativity is briefly addressed
The physical nature of psi phenomena such as telepathy is an important problem in present science of...
There are many known interfaces between Physics and Biology. Consciousness comes into play where phy...
It is known that if one could clone an arbitrary quantum state then one could send signals faster th...
A possible mechanism of nonlinear quantum evolution is introduced and its implications for quantum c...
The implications of quantum nonlocality are briefly reviewed. It is shown that the collapse of the w...
The relation between quantum collapse, consciousness and superluminal com-munication is analyzed. As...
The relation between quantum collapse, consciousness and superluminal communication is analyzed. As ...
Quantum theory is compatible with special relativity. In particular, though measurements on entangle...
In a recent paper, we describe a model of quantum communication based on combining consciousness exp...
We show that the quantum superluminal communication based on the quantum nonlocal influence must exi...
This paper shall define and discuss two types of quantum process - Disentangling and Entangling. The...
Since Bell's theorem, it is known that quantum correlations cannot be described by local variables (...
In this paper, we give a primary quantum theoretical model of telepathy based on the principle of qu...
A recent proposal to achieve faster-than-light communication by means of an EPR-type experimental se...
Mari et al. [Sci. Rep. 6, 22777 (2016)] and Belenchia et al. [Phys. Rev. D 98, 126009 (2018)] explor...
The physical nature of psi phenomena such as telepathy is an important problem in present science of...
There are many known interfaces between Physics and Biology. Consciousness comes into play where phy...
It is known that if one could clone an arbitrary quantum state then one could send signals faster th...
A possible mechanism of nonlinear quantum evolution is introduced and its implications for quantum c...
The implications of quantum nonlocality are briefly reviewed. It is shown that the collapse of the w...
The relation between quantum collapse, consciousness and superluminal com-munication is analyzed. As...
The relation between quantum collapse, consciousness and superluminal communication is analyzed. As ...
Quantum theory is compatible with special relativity. In particular, though measurements on entangle...
In a recent paper, we describe a model of quantum communication based on combining consciousness exp...
We show that the quantum superluminal communication based on the quantum nonlocal influence must exi...
This paper shall define and discuss two types of quantum process - Disentangling and Entangling. The...
Since Bell's theorem, it is known that quantum correlations cannot be described by local variables (...
In this paper, we give a primary quantum theoretical model of telepathy based on the principle of qu...
A recent proposal to achieve faster-than-light communication by means of an EPR-type experimental se...
Mari et al. [Sci. Rep. 6, 22777 (2016)] and Belenchia et al. [Phys. Rev. D 98, 126009 (2018)] explor...
The physical nature of psi phenomena such as telepathy is an important problem in present science of...
There are many known interfaces between Physics and Biology. Consciousness comes into play where phy...
It is known that if one could clone an arbitrary quantum state then one could send signals faster th...