M. Keyl
Published 2004-12-07, updated 2005-11-16Version 2
In this paper we propose a method to estimate the density matrix \rho of a d-level quantum system by measurements on the N-fold system. The scheme is based on covariant observables and representation theory of unitary groups and it extends previous results concerning the estimation of the spectrum of \rho. We show that it is consistent (i.e. the original input state \rho is recovered with certainty if N \to \infty), analyze its large deviation behavior, and calculate explicitly the corresponding rate function which describes the exponential decrease of error probabilities in the limit N \to \infty. Finally we discuss the question whether the proposed scheme provides the fastest possible decay of error probabilities.
Comments: LaTex2e, 40 pages, 2 figures. Substantial changes in Section 4: one new subsection (4.1) and another (4.2 was 4.1 in the previous version) completely rewritten. Minor changes in Sect. 2 and 3. Typos corrected. References added. Accepted for publication in Rev. Math. Phys
Journal: Reviews in Mathematical Physics, Vol. 18, No. 1 (2006) 19-60
Attaining the ultimate precision limit in quantum state estimation
Quantum Measurements in the Light of Quantum State Estimation
Quantum state estimation when qubits are lost: A no-data-left-behind approach
