J. Oppenheim, B. Reznik, W. Unruh
Published 2000-03-29, updated 2002-07-10Version 2
We examine the measurability of the temporal ordering of two events, as well as event coincidences. In classical mechanics, a measurement of the order-of-arrival of two particles is shown to be equivalent to a measurement involving only one particle (in higher dimensions). In quantum mechanics, we find that diffraction effects introduce a minimum inaccuracy to which the temporal order-of-arrival can be determined unambiguously. The minimum inaccuracy of the measurement is given by dt=1/E where E is the total kinetic energy of the two particles. Similar restrictions apply to the case of coincidence measurements. We show that these limitations are much weaker than limitations on measuring the time-of-arrival of a particle to a fixed location.
Comments: New section added, arguing that order-of-arrival can be measured more accurately than time-of-arrival. To appear in Journal of Physics A
Journal: J.Phys.A35:7641-7652,2002
Comment on `Underlining some limitations of the statistical formalism in quantum mechanics' by Fratini and Hayrapetyan
Underlining some limitations of the statistical formalism in quantum mechanics: Reply to the Comment of Bodor and Diósi
Underlining some limitations of the statistical formalism in quantum mechanics
