Add to ORKGNiels Bohr’s “correspondence principle” is typically believed to be the requirement that in the limit of large quantum numbers (n→∞) there is a statistical agreement between the quantum and classical frequencies. A closer reading of Bohr’s writings on the correspondence principle, however, reveals that this interpretation is mistaken. Specifically, Bohr makes the following three puzzling claims: First, he claims that the correspondence principle applies to small quantum numbers as well as large (while the statistical agreement of frequencies is only for large n); second, he claims that the correspondence principle is a law of quantum theory; and third, Bohr argues that formal apparatus of matrix mechanics (the new quantum theory) can be tho...
Niels Bohr’s complementarity principle is a tenuous synthesis of seemingly discrepant theoretical ap...
Bohr held that quantum mechanical symbols find meaning only in the context of an experimental settin...
A single mathematical theme underpins disparate physical phenomena in classical, quantum and statist...
One finds, even in texts by distinguished physicists, diverse enunciations of the correspondence pri...
A conception of the Correspondence Principle which Bohr deployed implicitly in developing a new theo...
Although Bohr’s Correspondence Principle (CP) played a central role in the first versions of quantum...
Although Bohr’s Correspondence Principle (CP) played a central role in the first days of quantum mec...
Most physicists and physics students understand the correspondence principle as the requirement that...
No, but the paper argues that Bohr understood his correspondence principle, or at least an aspect of...
In this paper we suggest a simple mathematical procedure to derive the classical probability density...
The question of Bohr correspondence in quantum field theory is considered from a dynamical point of ...
Niels Bohr’s complementarity principle is a tenuous synthesis of seemingly discrepant theoretical ap...
Bohr's interpretation of quantum mechanics has been criticized as incoherent and opportunistic, and ...
Questions of the reestablishment of a classical quantity from the known quantum operator are investi...
Questions of the reestablishment of a classical quantity from the known quantum operator are investi...
Niels Bohr’s complementarity principle is a tenuous synthesis of seemingly discrepant theoretical ap...
Bohr held that quantum mechanical symbols find meaning only in the context of an experimental settin...
A single mathematical theme underpins disparate physical phenomena in classical, quantum and statist...
One finds, even in texts by distinguished physicists, diverse enunciations of the correspondence pri...
A conception of the Correspondence Principle which Bohr deployed implicitly in developing a new theo...
Although Bohr’s Correspondence Principle (CP) played a central role in the first versions of quantum...
Although Bohr’s Correspondence Principle (CP) played a central role in the first days of quantum mec...
Most physicists and physics students understand the correspondence principle as the requirement that...
No, but the paper argues that Bohr understood his correspondence principle, or at least an aspect of...
In this paper we suggest a simple mathematical procedure to derive the classical probability density...
The question of Bohr correspondence in quantum field theory is considered from a dynamical point of ...
Niels Bohr’s complementarity principle is a tenuous synthesis of seemingly discrepant theoretical ap...
Bohr's interpretation of quantum mechanics has been criticized as incoherent and opportunistic, and ...
Questions of the reestablishment of a classical quantity from the known quantum operator are investi...
Questions of the reestablishment of a classical quantity from the known quantum operator are investi...
Niels Bohr’s complementarity principle is a tenuous synthesis of seemingly discrepant theoretical ap...
Bohr held that quantum mechanical symbols find meaning only in the context of an experimental settin...
A single mathematical theme underpins disparate physical phenomena in classical, quantum and statist...