Global Completability with Applications to Self-Consistent Quantum Tomography

Author(s)

Stark, Cyril

Abstract

Let p1,...,pN ∈ R[superscript D] be unknown vectors and let Ω ⊆ {1,...,N}[superscript 2]. Assume that the inner products p[superscript T][subscript i]p[subscript j] are fixed for all (i,j) ∈ Ω. Do these inner product constraints (up to simultaneous rotation of all vectors) determine p1,...,pN uniquely? Here we derive a necessary and sufficient condition for the uniqueness of p1,..., pN (i.e., global completability) which is applicable to a large class of practically relevant sets Ω. Moreover, given Ω, we show that the condition for global completability is universal in the sense that for almost all vectors p1,...,pN ∈ R[superscript D] the completability of p1,...,pN only depends on Ω and not on the specific values of p[superscript T][subscript i]p[subscript j] for (i,j) ∈ Ω. This work was motivated by practical considerations, namely, matrix factorization techniques and self-consistent quantum tomography.

Date issued

2016-09

URI

http://hdl.handle.net/1721.1/105480

Department

Massachusetts Institute of Technology. Laboratory for Nuclear Science

Journal

Communications in Mathematical Physics

Publisher

Springer Berlin Heidelberg

Citation

Bagley, A. F. et al. “Endothelial Thermotolerance Impairs Nanoparticle Transport in Tumors.” Cancer Research 75.16 (2015): 3255–3267.

Version: Author's final manuscript

ISSN

0010-3616

1432-0916