Shannon X. Wang
Massachusetts Institute of Technology
26 Papers
498 Citations
Shannon X. Wang is an academic researcher from Massachusetts Institute of Technology. The author has contributed to research in topics: Ion trap & Ion. The author has an hindex of 14, co-authored 26 publications. Previous affiliations of Shannon X. Wang include D-Wave Systems.
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Papers
Realization of a scalable Shor algorithm
Thomas Monz,Daniel Nigg,Esteban Martínez,Matthias F. Brandl,Philipp Schindler,Richard Rines,Shannon X. Wang,Isaac L. Chuang,Rainer Blatt,Rainer Blatt +9 more
TL;DR: The realization of a scalable Shor algorithm, as proposed by Kitaev, is presented, which has been realized scalably within an ion-trap quantum computer and returns the correct factors with a confidence level exceeding 99%.
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A quantum information processor with trapped ions
Philipp Schindler,Daniel Nigg,Thomas Monz,Julio T. Barreiro,Esteban Martínez,Shannon X. Wang,Stephan Quint,Matthias F. Brandl,Volckmar Nebendahl,Christian F. Roos,M. Chwalla,M. Chwalla,Markus Hennrich,Rainer Blatt,Rainer Blatt +14 more
TL;DR: In this paper, a small-scale quantum information processor based on a string of 40Ca+ ions confined in a macroscopic linear Paul trap is presented, which includes non-coherent operations allowing us to realize arbitrary Markovian processes.
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A quantum information processor with trapped ions
Philipp Schindler,Daniel Nigg,Thomas Monz,Julio T. Barreiro,Esteban Martínez,Shannon X. Wang,Stephan Quint,Matthias F. Brandl,Volckmar Nebendahl,Christian F. Roos,M. Chwalla,M. Chwalla,Markus Hennrich,Rainer Blatt,Rainer Blatt +14 more
TL;DR: In this paper, a small-scale quantum information processor based on a string of ions confined in a macroscopic linear Paul trap is presented. But the quantum Fourier transform is not considered.
243
Temperature Dependence of Electric Field Noise above Gold Surfaces
Jaroslaw Labaziewicz,Yufei Ge,David R. Leibrandt,Shannon X. Wang,Ruth Shewmon,Isaac L. Chuang +5 more
TL;DR: Measurements characterizing the temperature and frequency dependence of the noise from 7 to 100 K, using a single Sr+ ion trapped 75 mum above the surface of a gold plated surface electrode ion trap, show noise amplitude to have an approximate 1/f spectrum around 1 MHz.
Superconducting microfabricated ion traps
Shannon X. Wang,Yufei Ge,Jaroslaw Labaziewicz,Eric A. Dauler,Karl K. Berggren,Isaac L. Chuang +5 more
TL;DR: Wang et al. as discussed by the authors proposed a superconducting microfabricated ion trap with a superconductor and showed that the trap can be used to detect the presence of ion traps.
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