Rapid purification of quantum systems by measuring in a feedback-controlled unbiased basis

Abstract

Rapid-purification by feedback --- specifically, reducing the mean impurity faster than by measurement alone --- can be achieved by making the eigenbasis of the density matrix to be unbiased relative to the measurement basis. Here we further examine the protocol introduced by Combes and Jacobs [Phys.Rev.Lett. 96, 010504 (2006)] involving continuous measurement of the observable Jz for a D-dimensional system. We rigorously re-derive the lower bound (2/3)(D+1) on the achievable speed-up factor, and also an upper bound, namely D2/2, for all feedback protocols that use measurements in unbiased bases. Finally we extend our results to n independent measurements on a register of n qubits, and derive an upper bound on the achievable speed-up factor that scales linearly with n.