Arrival Times in Quantum Theory from an Irreversible Detector Model
Abstract
We investigate a detector scheme designed to measure the arrival of a particle at x=0 during a finite time interval. The detector consists of a two state system which undergoes a transition from one state to the other when the particle crosses x=0, and possesses the realistic feature that it is effectively irreversible as a result of being coupled to a large environment. The probabilities for crossing or not crossing x=0 thereby derived coincide with earlier phenomenologically proposed expressions involving a complex potential. The probabilities are compared with similar previously proposed expressions involving sums over paths, and a connection with time operator approaches is also indicated.
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