Quantum Information Processing, Volume (24), No (3), Year (2025-3)

Title : ( Instantaneous measurement can isolate the information )

Authors: Iman Sargolzahi ,

Citation: BibTeX | EndNote

Abstract

Consider a one-dimensional spin chain, from spin 1 to spin N, such that each spin interacts with its nearest neighbors. Performing a local operation (measurement) on spin N, we expect from the Lieb–Robinson velocity that, in general, the effect of this measurement achieves spin 1 after some while. But, in this paper, we show that if (a) the measurement on spin N is performed instantaneously and (b) the initial state of the spin chain is chosen appropriately, then the effect of the measurement on spin N never achieves spin 1. In other words, performing or not performing an instantaneous measurement on spin N at t = 0 does not alter the reduced dynamics of spin 1 for all the times t ≥ 0. We can interpret this as the following: The information of performing an instantaneous measurement on spin N is isolated such that it cannot achieve spin 1

Keywords

Measurement in quantum theory · Open quantum systems · Lieb–Robinson bounds
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@article{paperid:1102620,
author = {Sargolzahi, Iman},
title = {Instantaneous measurement can isolate the information},
journal = {Quantum Information Processing},
year = {2025},
volume = {24},
number = {3},
month = {March},
issn = {1570-0755},
keywords = {Measurement in quantum theory · Open quantum systems · Lieb–Robinson bounds},
}

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%0 Journal Article
%T Instantaneous measurement can isolate the information
%A Sargolzahi, Iman
%J Quantum Information Processing
%@ 1570-0755
%D 2025

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