Výsledky vyhledávání - "DE LA FUENTE, JULIO"

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Topological stabilizer models on continuous variables

Autor: de la Fuente, Julio C. Magdalena, Ellison, Tyler D., Cheng, Meng, Williamson, Dominic J.

We construct a family of two-dimensional topological stabilizer codes on continuous variable (CV) degrees of freedom, which generalize homological rotor codes and the toric-GKP code. Our topological codes are built using the concept of boson condensa

Externí odkaz: http://arxiv.org/abs/2411.04993

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Dynamical weight reduction of Pauli measurements

Autor: de la Fuente, Julio C. Magdalena

Many routines that one might want to run on a quantum computer can benefit from adaptive circuits, relying on mid-circuit measurements and feed-forward operations. Any such measurement has to be compiled into a sequence of elementary gates involving

Externí odkaz: http://arxiv.org/abs/2410.12527

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The XYZ ruby code: Making a case for a three-colored graphical calculus for quantum error correction in spacetime

Autor: de la Fuente, Julio C. Magdalena, Old, Josias, Townsend-Teague, Alex, Rispler, Manuel, Eisert, Jens, Müller, Markus

Analyzing and developing new quantum error-correcting schemes is one of the most prominent tasks in quantum computing research. In such efforts, introducing time dynamics explicitly in both analysis and design of error-correcting protocols constitute

Externí odkaz: http://arxiv.org/abs/2407.08566

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Floquetifying the Colour Code

Autor: Townsend-Teague, Alex, de la Fuente, Julio Magdalena, Kesselring, Markus

Publikováno v: EPTCS 384, 2023, pp. 265-303

Floquet codes are a recently discovered type of quantum error correction code. They can be thought of as generalising stabilizer codes and subsystem codes, by allowing the logical Pauli operators of the code to vary dynamically over time. In this wor

Externí odkaz: http://arxiv.org/abs/2307.11136

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Bulk-to-boundary anyon fusion from microscopic models

Autor: de la Fuente, Julio C. Magdalena, Eisert, Jens, Bauer, Andreas

Publikováno v: J. Math. Phys. 64, 111904 (2023)

Topological quantum error correction based on the manipulation of the anyonic defects constitutes one of the most promising frameworks towards realizing fault-tolerant quantum devices. Hence, it is crucial to understand how these defects interact wit

Externí odkaz: http://arxiv.org/abs/2302.01835

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Anyon condensation and the color code

Autor: Kesselring, Markus S., de la Fuente, Julio C. Magdalena, Thomsen, Felix, Eisert, Jens, Bartlett, Stephen D., Brown, Benjamin J.

Publikováno v: PRX Quantum 5, 010342 (2024)

The manipulation of topologically-ordered phases of matter to encode and process quantum information forms the cornerstone of many approaches to fault-tolerant quantum computing. Here we demonstrate that fault-tolerant logical operations in these app

Externí odkaz: http://arxiv.org/abs/2212.00042

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Non-Pauli topological stabilizer codes from twisted quantum doubles

Autor: de la Fuente, Julio Carlos Magdalena, Tarantino, Nicolas, Eisert, Jens

Publikováno v: Quantum 5, 398 (2021)

It has long been known that long-ranged entangled topological phases can be exploited to protect quantum information against unwanted local errors. Indeed, conditions for intrinsic topological order are reminiscent of criteria for faithful quantum er

Externí odkaz: http://arxiv.org/abs/2001.11516

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