Add to ORKGWe consider the successive measurement of position and momentum of a single particle. Let P be the conditional probability to measure the momentum with precision dk, given a previously successful position measurement of precision dq. Several upper bounds of the probability P are derived. For arbitrary, but given precisions dq and dk, these bounds refer to the variation of the state vector of the particle. The first bound is given by the inequality P<=dkdq/h, where h is Planck's quantum of action. This bound is nontrivial for all measurements with dkdq<h$. As our main result, the least upper bound of P is determined. Both bounds are independent of the order with which the measuring of the position and momentum is made
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We consider the successive measurement of position and momentum of a single particle. Let P be the c...
We introduce the conditional probability to consider consecutive measurements of photon number and q...
Two generalizations of a known approach to the joint measurement of position and momentum to the joi...
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The topic of probabilty in quantum mechanics is rather vast, and in this article, we shall choose to...
Historically, Kennard was the first to choose the standard deviation as a quantitative measure of un...
The concept of probability can help measure some of the possible outcomes of different experiments i...
Weak measurements are currently used to directly measure wavefunctions (1),(2). In this note, we com...
We consider the successive measurement of position and momentum of a single particle. Let P be the c...
We introduce the conditional probability to consider consecutive measurements of photon number and q...
Two generalizations of a known approach to the joint measurement of position and momentum to the joi...
Recently, there have been a number of papers in the literature dealing with the calculation of Sp + ...
The focus of the present investigation is uncertainty relations for quantum particles, which quantif...
Measurement uncertainty relations are lower bounds on the errors of any approximate joint measuremen...
The conventional postulate for the probabilistic interpretation of quantum mechanics is asymmetric i...
International audienceConsidering a minimal number of assumptions and in the context of the timeless...
In quantum mechanics, unlike in classical mechanics, one cannot make precise predictions about how a...
Quantum mechanics, through the Heisenberg uncertainty principle, imposes limits on the precision of ...
Abstract It is shown that Kolmogorovian probability models, like stochastic mechanics, are compati...
The topic of probabilty in quantum mechanics is rather vast, and in this article, we shall choose to...
Historically, Kennard was the first to choose the standard deviation as a quantitative measure of un...
The concept of probability can help measure some of the possible outcomes of different experiments i...
Weak measurements are currently used to directly measure wavefunctions (1),(2). In this note, we com...