Reflections on Zeilinger–Brukner Information Interpretation of Quantum Mechanics

@article{Khrennikov2015ReflectionsOZ,
  title={Reflections on Zeilinger–Brukner Information Interpretation of Quantum Mechanics},
  author={Andrei Yu. Khrennikov},
  journal={Foundations of Physics},
  year={2015},
  volume={46},
  pages={836-844}
}
  • A. Khrennikov
  • Published 25 December 2015
  • Physics
  • Foundations of Physics
In this short review I present my personal reflections on Zeilinger–Brukner information interpretation of quantum mechanics (QM).In general, this interpretation is very attractive for me. However, its rigid coupling to the notion of irreducible quantum randomness is a very complicated issue which I plan to address in more detail. This note may be useful for general public interested in quantum foundations, especially because I try to analyze essentials of the information interpretation… 
The conception of reality in Quantum Mechanics
Disputes on the foundations of Quantum Mechanics often involve the conception of reality, without a clear definition on which aspect of this broad concept of reality one refers. We provide an
Uncertainty equality with quantum memory and its experimental verification
As a very fundamental principle in quantum physics, uncertainty principle has been studied intensively via various uncertainty inequalities. A natural and fundamental question is whether an equality

References

SHOWING 1-10 OF 56 REFERENCES
Quantum Mechanics as Quantum Information (and only a little more)
In this paper, I try once again to cause some good-natured trouble. The issue remains, when will we ever stop burdening the taxpayer with conferences devoted to the quantum foundations? The suspicion
On the Quantum Measurement Problem
In this paper, I attempt a personal account of my understanding of the measurement problem in quantum mechanics, which has been largely in the tradition of the Copenhagen interpretation. I assume
Vaxjo Interpretation of Quantum Mechanics
We present critical arguments against individual interpretation of Bohr’s complementarity and Heisenberg’s uncertainty principles. Statistical interpretation of these principles is discussed in the
V\"axj\"o Interpretation of Quantum Mechanics
We present critical arguments against individual interpretation of Bohr's complementarity and Heisenberg's uncertainty principles. Statistical interpretation of these principles is discussed in the
Information and Fundamental Elements of the Structure of Quantum Theory
According to Aage Petersen Niels Bohr liked to say: “There is no quantum world. There is only an abstract quantum physical description. It is wrong to think that the task of physics is to find out
The Essence of Entanglement
Entanglement, according to Erwin Schroedinger the essence of quantum mechanics, is at the heart of the Einstein-Podolsky-Rosen paradox and of the so called quantum-nonlocality - the fact that a local
Delirium Quantum Or, where I will take quantum mechanics if it will let me
Once again, I take advantage of the wonderfully liberal and tolerant mood Andrei Khrennikov sets at his yearly conferences by submitting a nonstandard paper for the proceedings. This pseudo‐paper
A Foundational Principle for Quantum Mechanics
In contrast to the theories of relativity, quantum mechanics is not yet based on a generally accepted conceptual foundation. It is proposed here that the missing principle may be identified through
Whose knowledge?
Sir Rudolph Peierls, in a reply to John Bell’s last critique of the state of our understanding of quantum mechanics, maintained that it is easy to give an acceptable account of the physical
Toolbox for reconstructing quantum theory from rules on information acquisition
TLDR
An operational approach for reconstructing the quantum theory of qubit systems from elementary rules on information acquisition inspired by (but does not rely on) the relational interpretation and yields a novel formulation of quantum theory in terms of questions.
...
...