2018

DOI: 10.3390/e20080610

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SU(2) Decomposition for the Quantum Information Dynamics in 2d-Partite Two-Level Quantum Systems

Francisco Delgado

¹

Abstract: Abstract:The gate array version of quantum computation uses logical gates adopting convenient forms for computational algorithms based on the algorithms classical computation. Two-level quantum systems are the basic elements connecting the binary nature of classical computation with the settlement of quantum processing. Despite this, their design depends on specific quantum systems and the physical interactions involved, thus complicating the dynamics analysis. Predictable and controllable manipulation should … Show more

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“…The work by Delgado [ 30 ],

Decomposition for the Quantum Information Dynamics in

-Partite Two-Level Quantum Systems , presents a formalism to decompose the quantum information dynamics in

for

-partite two-level systems into

quantum subsystems. It generates an easier and more direct physical implementation of quantum processing developments for qubits.…”

mentioning

confidence: 99%

Quantum Probability and Randomness

¹

,

²

2019

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“…The work by Delgado [ 30 ],

Decomposition for the Quantum Information Dynamics in

-Partite Two-Level Quantum Systems , presents a formalism to decompose the quantum information dynamics in

for

-partite two-level systems into

quantum subsystems. It generates an easier and more direct physical implementation of quantum processing developments for qubits.…”

mentioning

confidence: 99%

Quantum Probability and Randomness

¹

,

²

2019

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Benchmarking of Adiabatic Quantum Computation models to predict the structure of proteins

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,

²

2019

J. Phys.: Conf. Ser.

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Elementary SU(2) Operations to Manipulate the Entropy in Large 2-Level Quantum Systems

¹

2020

J. Phys.: Conf. Ser.

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SU(2) operations are recurrently required in quantum information because of their simplicity. The SU(2) formalism states that quantum systems can be controlled easily, step by step, by means of such operations if convenient vector bases (normally composed by entangled states) are used as grammar. In this work, we explore the entanglement gained under such operations for the classes GHZ and W, as two well known representatives of maximal entangled states for larger systems.

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