The uncertainty relation for joint measurement of position and momentum
arXiv:quant-ph/0405184
Abstract
We prove an uncertainty relation, which imposes a bound on any joint measurement of position and momentum. It is of the form $(ÎP)(ÎQ)\geq C\hbar$, where the `uncertainties' quantify the difference between the marginals of the joint measurement and the corresponding ideal observable. Applied to an approximate position measurement followed by a momentum measurement, the uncertainties become the precision $ÎQ$ of the position measurement, and the perturbation $ÎP$ of the conjugate variable introduced by such a measurement. We also determine the best constant $C$, which is attained for a unique phase space covariant measurement.
17 pages, 4 figures; for Festschrift A.S. Holevo