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Arash Sorouri-Khorashad

Arash Sorouri-Khorashad

Academic rank: Assistant Professor
ORCID:
Education: PhD.
ScopusId: 197
HIndex:
Faculty: Faculty of Science
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Phone:

Research

Title
Quantum speed limit time for correlated quantum channel
Type
JournalPaper
Keywords
Open quantum systems ; Quantum speed limit time ; Correlated quantum Channel
Year
2020
Journal QUANTUM INFORMATION PROCESSING
DOI
Researchers Natasha Awasthi ، Sorosh Haseli ، Umesh Chandra Johri ، Shahriar Salimi ، Haziar Dolatkhah ، Arash Sorouri-Khorashad

Abstract

Memory effects play a fundamental role in the dynamics of open quantum systems. There exist two different views on memory for quantum noises. In the first view, the quantum channel has memory when there exist correlations between successive uses of the channels on a sequence of quantum systems. These types of channels are also known as correlated quantum channels. In the second view, memory effects result from correlations which are created during the quantum evolution. In this work, we will consider the first view and study the quantum speed limit time for a correlated quantum channel. Quantum speed limit time is the bound on the minimal time which is needed for a quantum system to evolve from an initial state to desired states. The quantum evolution is fast if the quantum speed limit time is short. In this work, we will study the quantum peed limit time for some correlated unital and correlated non-unital channels. As an example for unital channels, we choose correlated dephasing colored noise. We also consider the correlated amplitude damping and correlated squeezed generalized amplitude damping channels as the examples for non-unital channels. It will be shown that the quantum speed limit time for correlated pure dephasing colored noise is increased by increasing correlation strength, while for correlated amplitude damping and correlated squeezed generalized amplitude damping channels quantum speed limit time is decreased by increasing correlation strength.