Protecting operations on qudits from noise by continuous dynamical decoupling

Reginaldo de Jesus Napolitano; Felipe Fernandes Fanchini; Adonai Hilario da Silva; Bruno Bellomo

doi:10.1103/PhysRevResearch.3.013235

Protecting operations on qudits from noise by continuous dynamical decoupling

Reginaldo de Jesus Napolitano
, Felipe Fernandes Fanchini^*
, Adonai Hilario da Silva
, Bruno Bellomo

^*Corresponding author for this work

Not published at VTT

Universidade de São Paulo
São Paulo State University
Université Bourgogne Franche-Comté

Research output: Contribution to journal › Article › Scientific › peer-review

11 Citations (Scopus)

Abstract

We develop a procedure of generalized continuous dynamical decoupling (GCDD) for an ensemble of 𝑑-level systems (qudits), allowing one to protect the action of an arbitrary multiqudit gate from general noise. We first present our GCDD procedure for the case of an arbitrary qudit and apply it to the case of a Hadamard gate acting on a qutrit. This is done using a model that, in principle, could be implemented using the three magnetic hyperfine states of the ground energy level of ⁸⁷Rb and laser beams whose intensities and phases are modulated according to our prescription. We show that this model allows one to generate continuously all the possible SU(3) group operations which are, in general, needed to apply the GCDD procedure. We finally show that our method can be extended to the case of an ensemble of qudits, identical or not.

Original language	English
Article number	013235
Journal	Physical review research
Volume	3
DOIs	https://doi.org/10.1103/PhysRevResearch.3.013235
Publication status	Published - 12 Mar 2021
MoE publication type	A1 Journal article-refereed

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title = "Protecting operations on qudits from noise by continuous dynamical decoupling",

abstract = "We develop a procedure of generalized continuous dynamical decoupling (GCDD) for an ensemble of 𝑑-level systems (qudits), allowing one to protect the action of an arbitrary multiqudit gate from general noise. We first present our GCDD procedure for the case of an arbitrary qudit and apply it to the case of a Hadamard gate acting on a qutrit. This is done using a model that, in principle, could be implemented using the three magnetic hyperfine states of the ground energy level of 87Rb and laser beams whose intensities and phases are modulated according to our prescription. We show that this model allows one to generate continuously all the possible SU(3) group operations which are, in general, needed to apply the GCDD procedure. We finally show that our method can be extended to the case of an ensemble of qudits, identical or not.",

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AU - Napolitano, Reginaldo de Jesus

AU - Fanchini, Felipe Fernandes

AU - da Silva, Adonai Hilario

AU - Bellomo, Bruno

PY - 2021/3/12

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N2 - We develop a procedure of generalized continuous dynamical decoupling (GCDD) for an ensemble of 𝑑-level systems (qudits), allowing one to protect the action of an arbitrary multiqudit gate from general noise. We first present our GCDD procedure for the case of an arbitrary qudit and apply it to the case of a Hadamard gate acting on a qutrit. This is done using a model that, in principle, could be implemented using the three magnetic hyperfine states of the ground energy level of 87Rb and laser beams whose intensities and phases are modulated according to our prescription. We show that this model allows one to generate continuously all the possible SU(3) group operations which are, in general, needed to apply the GCDD procedure. We finally show that our method can be extended to the case of an ensemble of qudits, identical or not.

AB - We develop a procedure of generalized continuous dynamical decoupling (GCDD) for an ensemble of 𝑑-level systems (qudits), allowing one to protect the action of an arbitrary multiqudit gate from general noise. We first present our GCDD procedure for the case of an arbitrary qudit and apply it to the case of a Hadamard gate acting on a qutrit. This is done using a model that, in principle, could be implemented using the three magnetic hyperfine states of the ground energy level of 87Rb and laser beams whose intensities and phases are modulated according to our prescription. We show that this model allows one to generate continuously all the possible SU(3) group operations which are, in general, needed to apply the GCDD procedure. We finally show that our method can be extended to the case of an ensemble of qudits, identical or not.

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Protecting operations on qudits from noise by continuous dynamical decoupling

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