Tomography of Quantum Operations

D.-G. Welsch; G. M. D'Ariano; G. M. D'Ariano; G. M. D'Ariano; G. M. D'Ariano; G. M. D'Ariano; G. M. D'Ariano; I. L. Chuang; J. F. Poyatos; K. Banaszek; K. Kraus; K. R. W. Jones; M. Vasilyev; P. Lo Presti; Q. A. Turchette; U. Leonhardt

research

Tomography of Quantum Operations

Authors: D.-G. Welsch
G. M. D'Ariano
G. M. D'Ariano
G. M. D'Ariano
G. M. D'Ariano
G. M. D'Ariano
G. M. D'Ariano
I. L. Chuang
J. F. Poyatos
K. Banaszek
K. Kraus
K. R. W. Jones
M. Vasilyev
P. Lo Presti
Q. A. Turchette
U. Leonhardt
Publication date: 14 December 2000
Publisher: 'American Physical Society (APS)'
Doi

Abstract

Quantum operations describe any state change allowed in quantum mechanics, including the evolution of an open system or the state change due to a measurement. In this letter we present a general method based on quantum tomography for measuring experimentally the matrix elements of an arbitrary quantum operation. As input the method needs only a single entangled state. The feasibility of the technique for the electromagnetic field is shown, and the experimental setup is illustrated based on homodyne tomography of a twin-beam.Comment: Submitted to Phys. Rev. Lett. 2 eps + 1 latex figure

Similar works

Full text

Open in the Core reader

Download PDF

Available Versions

Crossref

Last time updated on 17/02/2019