Finite de Finetti theorem for conditional probability distributions describing physical theories

Creators: Christandl, Matthias; Toner, Ben

Abstract

We work in a general framework where the state of a physical system is defined by its behavior under measurement and the global state is constrained by no-signaling conditions. We show that the marginals of symmetric states in such theories can be approximated by convex combinations of independent and identical conditional probability distributions, generalizing the classical finite de Finetti theorem of Diaconis and Freedman. Our results apply to correlations obtained from quantum states even when there is no bound on the local dimension, so that known quantum de Finetti theorems cannot be used.

Additional Information

© 2009 American Institute of Physics. Received 27 July 2008; accepted 17 March 2009; published online 15 April 2009. This work was carried out at the same time as related work by J. Barrett and M. Leifer.14 We thank them for discussions, and especially for explaining how to define the trace distance. We thank R. Colbeck and R. Renner for discussions, G. Mitchison for valuable comments on the manuscript, and the organizers of the FQXi workshop Operational Probabilistic Theories as Foils to Quantum Theory, where part of this work was done. M.C. thanks the IQI at Caltech and CWI Amsterdam for their hospitality. This work was supported by a UK EPSRC Research Fellowship, Magdalene College Cambridge, NSF Grant Nos. PHY-0456720 and CCF-0524828, EU Projects SCALA (Grant No. CT-015714) and QAP (Grant No. CT-015848), NWO VICI Project No. 639- 023-302, and the Dutch BSIK/BRICKS project.

Attached Files

Published - Christandl2009p4430J_Math_Phys.pdf

Files

Christandl2009p4430J_Math_Phys.pdf

Files (169.2 kB)

Name	Size	Download all
Christandl2009p4430J_Math_Phys.pdf md5:4cbe1a2a394024b2d2a490ae93b7aecc	169.2 kB	Preview Download

Additional details

	All versions	This version
Views	0	0
Downloads	0	0
Data volume	0 Bytes	0 Bytes