Search Results - "Kesselring, Markus S."

Poking Holes and Cutting Corners to Achieve Clifford Gates with the Surface Code by Brown, Benjamin J., Laubscher, Katharina, Kesselring, Markus S., Wootton, James R.

“…The surface code is currently the leading proposal to achieve fault-tolerant quantum computation. Among its strengths are the plethora of known ways in which…”
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Combining Topological Hardware and Topological Software: Color-Code Quantum Computing with Topological Superconductor Networks by Litinski, Daniel, Kesselring, Markus S., Eisert, Jens, von Oppen, Felix

“…We present a scalable architecture for fault-tolerant topological quantum computation using networks of voltage-controlled Majorana Cooper pair boxes and…”
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Domain Wall Color Code by Tiurev, Konstantin, Pesah, Arthur, Derks, Peter-Jan H S, Roffe, Joschka, Eisert, Jens, Kesselring, Markus S, Reiner, Jan-Michael

“…We introduce the domain wall color code, a new variant of the quantum error-correcting color code that exhibits exceptionally high code-capacity error…”
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The boundaries and twist defects of the color code and their applications to topological quantum computation by Kesselring, Markus S., Pastawski, Fernando, Eisert, Jens, Brown, Benjamin J.

“…The color code is both an interesting example of an exactly solved topologically ordered phase of matter and also among the most promising candidate models to…”
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Reinforcement learning decoders for fault-tolerant quantum computation by Sweke, Ryan, Kesselring, Markus S, van Nieuwenburg, Evert P L, Eisert, Jens

“…Topological error correcting codes, and particularly the surface code, currently provide the most feasible road-map towards large-scale fault-tolerant quantum…”
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Low-overhead quantum computing with the color code by Thomsen, Felix, Kesselring, Markus S., Bartlett, Stephen D., Brown, Benjamin J.

“…Fault-tolerant quantum computation demands significant resources: large numbers of physical qubits must be checked for errors repeatedly to protect quantum…”
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Anyon Condensation and the Color Code by Kesselring, Markus S., Magdalena de la Fuente, Julio C., Thomsen, Felix, Eisert, Jens, Bartlett, Stephen D., Brown, Benjamin J.

“…The manipulation of topologically ordered phases of matter to encode and process quantum information forms the cornerstone of many approaches to fault-tolerant…”
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Anyon condensation and the color code by Kesselring, Markus S, de la Fuente, Julio C. Magdalena, Thomsen, Felix, Eisert, Jens, Bartlett, Stephen D, Brown, Benjamin J

“…PRX Quantum 5, 010342 (2024) The manipulation of topologically-ordered phases of matter to encode and process quantum information forms the cornerstone of many…”
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The domain wall color code by Tiurev, Konstantin, Pesah, Arthur, Derks, Peter-Jan H. S, Roffe, Joschka, Eisert, Jens, Kesselring, Markus S, Reiner, Jan-Michael

“…Phys. Rev. Lett. 133, 110601 (2024) We introduce the domain wall color code, a new variant of the quantum error-correcting color code that exhibits…”
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Low-overhead quantum computing with the color code by Thomsen, Felix, Kesselring, Markus S, Bartlett, Stephen D, Brown, Benjamin J

“…Fault-tolerant quantum computation demands significant resources: large numbers of physical qubits must be checked for errors repeatedly to protect quantum…”
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The boundaries and twist defects of the color code and their applications to topological quantum computation by Kesselring, Markus S, Pastawski, Fernando, Eisert, Jens, Brown, Benjamin J

“…Quantum 2, 101 (2018) The color code is both an interesting example of an exactly solved topologically ordered phase of matter and also among the most…”
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Reinforcement Learning Decoders for Fault-Tolerant Quantum Computation by Sweke, Ryan, Kesselring, Markus S, van Nieuwenburg, Evert P. L, Eisert, Jens

“…Mach. Learn. Sci. Technol. 2, 025005 (2021) Topological error correcting codes, and particularly the surface code, currently provide the most feasible roadmap…”
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Combining Topological Hardware and Topological Software: Color Code Quantum Computing with Topological Superconductor Networks by Litinski, Daniel, Kesselring, Markus S, Eisert, Jens, von Oppen, Felix

“…Phys. Rev. X 7, 031048 (2017) We present a scalable architecture for fault-tolerant topological quantum computation using networks of voltage-controlled…”
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Poking holes and cutting corners to achieve Clifford gates with the surface code by Brown, Benjamin J, Laubscher, Katharina, Kesselring, Markus S, Wootton, James R

“…Phys. Rev. X 7, 021029 (2017) The surface code is currently the leading proposal to achieve fault-tolerant quantum computation. Among its strengths are the…”
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