Proof of Heisenberg's error-disturbance principle

Abstract

In Heisenberg's error-disturbance relation for electron position measurement, the measurement error must be the one that determines the uncertainty in the electron position just after the measurement. It is the resolution ε(xt) i.e., the measurement error of the post-measurement observable xt, not the precision ε(x0) i.e., that of the pre-measurement observable x0 that determines the uncertainty of the observable xt. Therefore, Heisenberg's relation must be interpreted as one between the resolution ε(xt) and the disturbance η(y0). The magnitude of the disturbance η(y0) is independent of the definition of the measurement value of the observable xt. Heisenberg's error-disturbance relation is proven to hold true in general, when the measurement value of xt is defined in order to minimize the resolution ε(xt).