On the experimental verification of the uncertainty principle of position and momentum
Abstract
Historically, Kennard was the first to choose the standard deviation as a quantitative measure of uncertainty, and neither he nor Heisenberg explicitly explained why this choice should be appropriate from the experimental physical point of view. If a particle is prepared by a single slit of spatial width x, it has been shown that a finite standard deviation σp<∞ can only be ensured if the wave-function is zero at the edge of x, otherwise it does not exist [8]. Under this circumstances the corresponding sharp inequality is σp x≥ π. This bound will be reconsidered from the mathematical point of view in terms of a variational problem in Hilbert space and will furthermore be tested in a 4f-single slit diffraction experiment of a laser beam. Our results will be compared with a laser-experiment recently given by Fern\'andez-Guasti (2022) [9].
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