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Isaac L. Chuang
Researcher at Massachusetts Institute of Technology
Publications - 318
Citations - 70398
Isaac L. Chuang is an academic researcher from Massachusetts Institute of Technology. The author has contributed to research in topics: Quantum computer & Quantum information. The author has an hindex of 64, co-authored 299 publications receiving 65269 citations. Previous affiliations of Isaac L. Chuang include Bell Labs & University of California, Santa Barbara.
Papers
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Experimental realization of Shor's quantum factoring algorithm using nuclear magnetic resonance
Lieven M. K. Vandersypen,Matthias Steffen,Matthias Steffen,Gregory Breyta,Costantino S. Yannoni,Mark H. Sherwood,Isaac L. Chuang,Isaac L. Chuang +7 more
TL;DR: A simple, parameter-free but predictive model of decoherence effects in the authors' system is presented, which is in principle scalable to systems containing many quantum bits, but such scalability is not implied by the present work.
Journal ArticleDOI
Bulk Spin-Resonance Quantum Computation
Neil Gershenfeld,Isaac L. Chuang +1 more
TL;DR: A new approach to quantum computing is introduced based on the use of multiple-pulse resonance techniques to manipulate the small deviation from equilibrium of the density matrix of a macroscopic ensemble so that it appears to be the density Matrix of a much lower dimensional pure state.
Experimental Realization of Shor's quantum factoring algorithm
Matthias Steffen,Lieven M. K. Vandersypen,Gregory Breyta,Costantino S. Yannoni,Mark H. Sherwood,Isaac L. Chuang +5 more
Journal ArticleDOI
NMR techniques for quantum control and computation
TL;DR: In this article, a broad variety of pulse control and tomographic techniques have been developed for, and used in, NMR quantum computation and many of these will be useful in other quantum systems now being considered for the implementation of quantum information processing tasks.
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Quantum Teleportation is a Universal Computational Primitive
Daniel Gottesman,Isaac L. Chuang +1 more
TL;DR: In this paper, the authors present a method to create a variety of interesting gates by teleporting quantum bits through special entangled states, which allows, for instance, the construction of a quantum computer based on just single qubit operations, Bell measurements, and GHZ states.