Add to ORKGThe Born rule, which is one of foundational axioms of quantum theory, states that the probability of obtain outcome $a$ for the quantum state $|\psi\rangle$ is determined by $P(a)=|\langle a|\psi\rangle|^{2}$. Despite its great success in predicting the experimental outcomes, there still lacks a direct way to verify the Born rule. Here, we show that the weak value based direct measurement of superposition wavefunction is feasible, which can be used to verify the Born rule directly. The plausible experiment is suggested.Comment: comments are welcom
It is shown that violation of the Born Rule leads to a breakdown of the correspondence between the q...
I give a very simple derivation of the Born rule by counting states from a continuous basis. More...
We investigate the possibility that the amplitude of quantum wave can have a deeper physical meaning...
The Born’s rule to interpret the square of wave function as the probability to get a specific value ...
The Born’s rule to interpret the square of wave function as the probability to get a specific valu...
I provide a simple derivation of the Born rule as giving a classical probability, that is, the ratio...
In ordinary situations involving a small part of the universe, Born's rule seems to work well for ca...
The Born rule, a cornerstone of quantum theory usually taken as a postulate, continues to attract nu...
We analyze the results of the test of Born rule on the public quantum computer provided by IBM. We m...
We clarify the role of the Born rule in the Copenhagen Interpretation of quantum mechanics by derivi...
Considerable effort has been devoted to deriving the Born rule (e.g. that $|\psi(x)|^2 dx$ is the pr...
We investigate the use of weak values to determine the presence of an individual quantum particle. S...
The Everett (or relative-state, or many-worlds) interpretation of quantum mechanics has come under f...
The measurement problem in quantum mechanics arises from the apparent collapse of a superposition st...
The Born rule, a foundational axiom used to deduce probabilities of events from wavefunctions, is in...
It is shown that violation of the Born Rule leads to a breakdown of the correspondence between the q...
I give a very simple derivation of the Born rule by counting states from a continuous basis. More...
We investigate the possibility that the amplitude of quantum wave can have a deeper physical meaning...
The Born’s rule to interpret the square of wave function as the probability to get a specific value ...
The Born’s rule to interpret the square of wave function as the probability to get a specific valu...
I provide a simple derivation of the Born rule as giving a classical probability, that is, the ratio...
In ordinary situations involving a small part of the universe, Born's rule seems to work well for ca...
The Born rule, a cornerstone of quantum theory usually taken as a postulate, continues to attract nu...
We analyze the results of the test of Born rule on the public quantum computer provided by IBM. We m...
We clarify the role of the Born rule in the Copenhagen Interpretation of quantum mechanics by derivi...
Considerable effort has been devoted to deriving the Born rule (e.g. that $|\psi(x)|^2 dx$ is the pr...
We investigate the use of weak values to determine the presence of an individual quantum particle. S...
The Everett (or relative-state, or many-worlds) interpretation of quantum mechanics has come under f...
The measurement problem in quantum mechanics arises from the apparent collapse of a superposition st...
The Born rule, a foundational axiom used to deduce probabilities of events from wavefunctions, is in...
It is shown that violation of the Born Rule leads to a breakdown of the correspondence between the q...
I give a very simple derivation of the Born rule by counting states from a continuous basis. More...
We investigate the possibility that the amplitude of quantum wave can have a deeper physical meaning...