Add to ORKGIn this paper, we discuss various aspects of Heisenberg’s thought on hidden variables in the period 1927–1935. We also compare Heisenberg’s approach to others current at the time, specifically that embodied by von Neumann’s impossibility proof, but also views expressed mainly in correspondence by Pauli and by Schroedinger. We shall base ourselves mostly on published and unpublished materials that are known but little-studied, among others Heisenberg’s own draft response to the EPR paper. Our aim will be not only to clarify Heisenberg’s thought on the hidden-variables question, but in part also to clarify how this question was understood more generally at the time
This paper traces the development and transformation of the statistical interpretation of quantum me...
Heisenberg's breakthrough in his July 1925 paper that set in motion the development of Quantum Mecha...
At the 1927 Solvay conference Born and Heisenberg presented a joint report on quantum mechanics. I s...
In this paper, we discuss various aspects of Heisenberg's thought on hidden variables in the period ...
In this paper, we discuss various aspects of Heisenberg’s thought on hidden variables in the period ...
In this paper, we discuss various aspects of Heisenberg’s thought on hidden variables in the period ...
In the debate whether ‘hidden variables’ could exist underneath quantum probabilities, the ‘no hidde...
According to what has become a standard history of quantum mechanics, von Neumann in 1932 succeeded ...
In this paper I provide a detailed history of von Neumann’s “No Hidden Variables” theorem, and I arg...
Many theoretical predictions derived from quantum mechanics have been confirmed experimentally durin...
In this paper I provide a detailed history of von Neumann’s “No Hidden Variables” theorem, and I arg...
We clarify the meaning of Bell's theorem and its implications for the construction of hidden variabl...
Heisenberg’s uncertainty principle is a milestone of twentieth-century physics. We sketch the histor...
summary:The non-existence of hidden variables for the whole system in the formulation of Jauch and P...
Since the early days of quantum mechanics, a number of physicists have doubted whether quantum mecha...
This paper traces the development and transformation of the statistical interpretation of quantum me...
Heisenberg's breakthrough in his July 1925 paper that set in motion the development of Quantum Mecha...
At the 1927 Solvay conference Born and Heisenberg presented a joint report on quantum mechanics. I s...
In this paper, we discuss various aspects of Heisenberg's thought on hidden variables in the period ...
In this paper, we discuss various aspects of Heisenberg’s thought on hidden variables in the period ...
In this paper, we discuss various aspects of Heisenberg’s thought on hidden variables in the period ...
In the debate whether ‘hidden variables’ could exist underneath quantum probabilities, the ‘no hidde...
According to what has become a standard history of quantum mechanics, von Neumann in 1932 succeeded ...
In this paper I provide a detailed history of von Neumann’s “No Hidden Variables” theorem, and I arg...
Many theoretical predictions derived from quantum mechanics have been confirmed experimentally durin...
In this paper I provide a detailed history of von Neumann’s “No Hidden Variables” theorem, and I arg...
We clarify the meaning of Bell's theorem and its implications for the construction of hidden variabl...
Heisenberg’s uncertainty principle is a milestone of twentieth-century physics. We sketch the histor...
summary:The non-existence of hidden variables for the whole system in the formulation of Jauch and P...
Since the early days of quantum mechanics, a number of physicists have doubted whether quantum mecha...
This paper traces the development and transformation of the statistical interpretation of quantum me...
Heisenberg's breakthrough in his July 1925 paper that set in motion the development of Quantum Mecha...
At the 1927 Solvay conference Born and Heisenberg presented a joint report on quantum mechanics. I s...