Lidar, Daniel - Center for Quantum Information Science and Technology & Department of Electrical Engineering, University of Southern California

• Vanishing Quantum Discord is Necessary and Sufficient for Completely Positive Maps Alireza Shabani and Daniel A. Lidar
• Exponentially localized magnetic fields for single-spin quantum logic gates D. A. Lidar
• INSTITUTE OF PHYSICS PUBLISHING JOURNAL OF PHYSICS: CONDENSED MATTER J. Phys.: Condens. Matter 18 (2006) S721S744 doi:10.1088/0953-8984/18/21/S02
• Robust transmission of non-Gaussian entanglement over optical fibers Asoka Biswas1
• He scattering from random adsorbates, disordered compact islands, and fractal submonolayers: Intensity manifestations of surface disorder
• Universal quantum computation using exchange interactions and measurements of single-and two-spin observables
• Robustness of multiqubit entanglement in the independent decoherence model Somshubhro Bandyopadhyay1,
• Protecting quantum information encoded in decoherence-free states against exchange errors Daniel A. Lidar,1
• PHYSICAL REVIEW A 82, 012321 (2010) Intrinsic geometry of quantum adiabatic evolution and quantum phase transitions
• Theory of decoherence-free fault-tolerant universal quantum computation J. Kempe,1,3,4
• Decoherence-free subspaces for multiple-qubit errors. II. Universal, fault-tolerant quantum computation
• PHYSICAL REVIEW A 81, 062353 (2010) Channel capacities of an exactly solvable spin-star system
• Comment on ``Conservative Quantum Computing'' In [1], Ozawa considers the limitations imposed by
• Entanglement, fidelity, and topological entropy in a quantum phase transition to topological order
• C&EN: BOOKS -QUANTUM COMPUTERS MADE LUCID August 11, 2003
• Performance of deterministic dynamical decoupling schemes: Concatenated and periodic pulse sequences
• Efficient Multiqubit Entanglement via a Spin Bus Mark Friesen,1,* Asoka Biswas,2
• Adiabatic approximation in open quantum systems M. S. Sarandy* and D. A. Lidar
• VOLUME 81, NUMBER 26 P H Y S I C A L R E V I E W L E T T E R S 28 DECEMBER 1998 How to Teleport Superpositions of Chiral Amplitudes
• Exchange interaction between three and four coupled quantum dots: Theory and applications to quantum computing
• VOLUME 88, NUMBER 1 P H Y S I C A L R E V I E W L E T T E R S 7 JANUARY 2002 Reducing Constraints on Quantum Computer Design by Encoded Selective Recoupling
• arXiv:quant-ph/0302198v127Feb2003 Quantum Computers and Decoherence: Exorcising the
• Control of decoherence: Analysis and comparison of three different strategies P. Facchi,1
• Bang-bang control of a qubit coupled to a quantum critical spin bath D. Rossini,1
• Scaling range and cutoffs in empirical fractals Ofer Malcai,* Daniel A. Lidar,
• Quantum computing in the presence of spontaneous emission by a combined dynamical decoupling and quantum-error-correction strategy
• Internal consistency of fault-tolerant quantum error correction in light of rigorous derivations of the quantum Markovian limit
• Fault-Tolerant Holonomic Quantum Computation Ognyan Oreshkov,1
• Decoherence-free subspaces for multiple-qubit errors. I. Characterization Daniel A. Lidar,1,* Dave Bacon,1,2
• Quantum Inf Process DOI 10.1007/s11128-009-0120-2
• Quantum Phase Transitions and Bipartite Entanglement L.-A. Wu, M. S. Sarandy, and D. A. Lidar
• PHYSICAL REVIEW A 82, 042321 (2010) Optimized entanglement-assisted quantum error correction
• Classical Ising model test for quantum circuits This article has been downloaded from IOPscience. Please scroll down to see the full text article.
• PHYSICAL REVIEW A 81, 062352 (2010) Optimal control landscape for the generation of unitary transformations with constrained dynamics
• Near-Optimal Dynamical Decoupling of a Qubit Jacob R. West,1
• Arbitrarily Accurate Dynamical Control in Open Quantum Systems Kaveh Khodjasteh,1
• RAPID COMMUNICATIONS PHYSICAL REVIEW A 81, 010102(R) (2010)
• Maps for general open quantum systems and a theory of linear quantum error correction Alireza Shabani1,2
• Operator quantum error correction for continuous dynamics Ognyan Oreshkov,1,2,3
• Encoding one logical qubit into six physical qubits Bilal Shaw,1,4,5,* Mark M. Wilde,1,5
• Distance bounds on quantum dynamics Daniel A. Lidar
• Towards Fault Tolerant Adiabatic Quantum Computation Daniel A. Lidar
• Spin density matrix of a two-electron system. II. Application to a system of two quantum dots Sharif D. Kunikeev
• Spin density matrix of a two-electron system. I. General theory and exact master equations Sharif D. Kunikeev
• DownloadedBy:[UniversityofSouthernCalifornia]At:21:143December2007 Fidelity of optimally controlled quantum gates with randomly
• Non-Markovian dynamics of a qubit coupled to an Ising spin bath Hari Krovi,1
• Simple Proof of Equivalence between Adiabatic Quantum Computation and the Circuit Model Ari Mizel,1
• Direct characterization of quantum dynamics: General theory M. Mohseni1,2
• Erratum: Performance of deterministic dynamical decoupling schemes: Concatenated and periodic pulse sequences
• IOP PUBLISHING JOURNAL OF PHYSICS B: ATOMIC, MOLECULAR AND OPTICAL PHYSICS J. Phys. B: At. Mol. Opt. Phys. 40 (2007) S127S142 doi:10.1088/0953-4075/40/9/S07
• Linking entanglement and quantum phase transitions via density-functional theory M. S. Sarandy,2,3
• Direct Characterization of Quantum Dynamics M. Mohseni1,2
• Abelian and non-Abelian geometric phases in adiabatic open quantum systems M. S. Sarandy1
• T h e o p e n a c c e s s j o u r n a l f o r p h y s i c s New Journal of Physics
• Conditions for strictly purity-decreasing quantum Markovian dynamics
• Adiabatic Quantum Computation in Open Systems M. S. Sarandy1,2
• Entanglement observables and witnesses for interacting quantum spin systems L.-A. Wu, S. Bandyopadhyay,* M. S. Sarandy, and D. A. Lidar
• Universal leakage elimination Mark S. Byrd,1
• Overview of quantum error prevention and leakage elimination
• Quantum Information Processing, Vol. 3, No. 6, December 2004 ( 2004) Consistency of the Adiabatic Theorem
• Overcoming quantum noise in optical fibers Lian-Ao Wu and Daniel A. Lidar
• On the quantum computational complexity of the Ising spin glass partition function and of
• Long-range entanglement generation via frequent measurements L.-A. Wu, D. A. Lidar, and S. Schneider
• Purity and state fidelity of quantum channels Paolo Zanardi
• Entangling capacities of noisy two-qubit Hamiltonians Somshubhro Bandyopadhyay and Daniel A. Lidar
• Three-and Four-Body Interactions in Spin-Based Quantum Computers Physics Department and Materials Research Institute, Pennsylvania State University, University Park, Pennsylvania 16802, USA
• Quantum Tensor Product Structures are Observable Induced Paolo Zanardi,1,2
• Combined error correction techniques for quantum computing architectures
• Encoded recoupling and decoupling: An alternative to quantum error-correcting codes applied to trapped-ion quantum computation
• Empirical determination of dynamical decoupling operations Mark S. Byrd*,
• Universal Fault-Tolerant Quantum Computation in the Presence of Spontaneous Emission and Collective Dephasing
• Quantum Codes for Simplifying Design and Suppressing Decoherence in Superconducting Phase-Qubits
• Qubits as parafermions L.-A. Wu and D. A. Lidara)
• Polynomial-Time Simulation of Pairing Models on a Quantum Computer L.-A. Wu, M. S. Byrd,* and D. A. Lidar
• VOLUME 89, NUMBER 4 P H Y S I C A L R E V I E W L E T T E R S 22 JULY 2002 Comprehensive Encoding and Decoupling Solution to Problems of Decoherence and Design
• From completely positive maps to the quantum Markovian semigroup master equation
• VOLUME 85, NUMBER 8 P H Y S I C A L R E V I E W L E T T E R S 21 AUGUST 2000 Universal Fault-Tolerant Quantum Computation on Decoherence-Free Subspaces
• Science --Tsonis; et al. 279 (5357): 1611h http://www.sciencemag.org/cgi/content/full/279/5357/1611h?maxtosh... 1 of 4 22/09/2003 6:15 PM
• Surface Science 410 (1998) L721L726 Surface Science Letters
• Simulating Ising spin glasses on a quantum computer Daniel A. Lidar1,2,
• Limited range fractality of randomly adsorbed rods Daniel A. Lidar (Hamburger)a)
• arXiv:quant-ph/0301032v19Jan2003 Decoherence-Free Subspaces and Subsystems
• Fault-Tolerant Quantum Dynamical Decoupling K. Khodjasteh
• Pattern formation and a clustering transition in power-law sequential adsorption Ofer Biham,1
• Fault-Tolerant Quantum Computation via Exchange Interactions Masoud Mohseni1
• Dressed Qubits L.-A. Wu and D. A. Lidar
• Power of anisotropic exchange interactions: Universality and efficient codes for quantum computing
• Calculating the thermal rate constant with exponential speedup on a quantum computer Daniel A. Lidar* and Haobin Wang
• Optimal Dynamical Decoherence Control of a Qubit Goren Gordon and Gershon Kurizki
• PHYSICAL REVIEW A 82, 052305 (2010) Accuracy versus run time in an adiabatic quantum search
• One-Spin Quantum Logic Gates from Exchange Interactions and a Global Magnetic Field Lian-Ao Wu and Daniel A. Lidar
• Digital Object Identifier (DOI) 10.1007/s00220-008-0438-0 Commun. Math. Phys.
• Analysis of generalized Grover quantum search algorithms using recursion equations Eli Biham,1
• Inverse Problems 14 (1998) 12991310. Printed in the UK PII: S0266-5611(98)90801-2 Inversion of randomly corrugated surface structure from
• NEWS & VIEWS nature physics | VOL 1 | DECEMBER 2005 | www.nature.com/naturephysics 145
• INSTITUTE OF PHYSICS PUBLISHING JOURNAL OF PHYSICS B: ATOMIC, MOLECULAR AND OPTICAL PHYSICS How to control decoherence and entanglement in
• Universal quantum logic from Zeeman and anisotropic exchange interactions Lian-Ao Wu and Daniel A. Lidar
• Theory of initialization-free decoherence-free subspaces and subsystems Alireza Shabani1,
• Optical theorem and the inversion of cross section data for atom scattering from defects on surfaces
• VOLUME 82, NUMBER 22 P H Y S I C A L R E V I E W L E T T E R S 31 MAY 1999 Concatenating Decoherence-Free Subspaces with Quantum Error Correcting Codes
• Holonomic Quantum Computation in Decoherence-Free Subspaces P. Zanardi,2
• IEEE TRANSACTIONS ON INFORMATION THEORY, VOL. 56, NO. 3, MARCH 2010 1461 Channel-Optimized Quantum Error Correction
• Rigorous bounds on the performance of a hybrid dynamical-decoupling quantum-computing scheme
• Robustness of decoherence-free subspaces for quantum computation D. Bacon,1,2
• Adiabatic Preparation of Topological Order Alioscia Hamma1
• Magnetic Resonance Realization of Decoherence-Free Quantum Computation Jason E. Ollerenshaw,1
• Quantum-process tomography: Resource analysis of different strategies M. Mohseni,1,2,3
• Scheme for fault-tolerant holonomic computation on stabilizer codes Ognyan Oreshkov,1,2,3
• Surface Science 411 (1998) 231248 Atom scattering from disordered surfaces in the sudden
• VOLUME 88, NUMBER 20 P H Y S I C A L R E V I E W L E T T E R S 20 MAY 2002 Creating Decoherence-Free Subspaces Using Strong and Fast Pulses
• Erratum: Universal Fault-Tolerant Quantum Computation in the Presence of Spontaneous Emission and Collective Dephasing
• Unification of dynamical decoupling and the quantum Zeno effect P. Facchi,1
• Adiabatic approximation with exponential accuracy for many-body systems and quantum computation
• Erratum: Quantum computing in the presence of spontaneous emission by a combined dynamical decoupling and quantum-error-correction strategy
• Elastic scattering by deterministic and random fractals: Self-affinity of the diffraction spectrum Daniel A. Hamburger-Lidar*
• Fault-Tolerant Quantum Dynamical Decoupling K. Khodjasteh1
• High Fidelity Quantum Gates via Dynamical Decoupling Jacob R. West,1
• Robust Quantum Error Correction via Convex Optimization Robert L. Kosut,1
• DOI: 10.1007/s11128-006-0014-5 Quantum Information Processing, Vol. 5, No. 2, April 2006 ( 2006)
• Quantum computing with quantum dots on quantum linear supports K. R. Brown, D. A. Lidar,* and K. B. Whaley
• Completely positive post-Markovian master equation via a measurement approach A. Shabani1
• Quantum Adiabatic Brachistochrone A. T. Rezakhani,1
• Efficient Universal Leakage Elimination for Physical and Encoded Qubits L.-A. Wu, M. S. Byrd, and D. A. Lidar
• IOP PUBLISHING JOURNAL OF PHYSICS B: ATOMIC, MOLECULAR AND OPTICAL PHYSICS J. Phys. B: At. Mol. Opt. Phys. 40 (2007) S103S125 doi:10.1088/0953-4075/40/9/S06
• PHYSICAL REVIEW A 82, 012301 (2010) Rigorous bounds for optimal dynamical decoupling
• Wu et al. Reply: In our Letter [1] we presented a numeri-cally exact, polynomial-time quantum computer algo-
• Dynamical decoupling using slow pulses: Efficient suppression of 1f noise K. Shiokawa1,2
• BangBang Operations from a Geometric Perspective Mark S. Byrd1
• Science --Mandelbrot; et al. 279 (5352): 783c http://www.sciencemag.org/cgi/content/full/279/5352/783c?maxtosho... 1 of 6 22/09/2003 6:14 PM
• IOP PUBLISHING JOURNAL OF PHYSICS B: ATOMIC, MOLECULAR AND OPTICAL PHYSICS J. Phys. B: At. Mol. Opt. Phys. 44 (2011) 154003 (6pp) doi:10.1088/0953-4075/44/15/154003
• PHYSICAL REVIEW A 84, 012305 (2011) Combining dynamical decoupling with fault-tolerant quantum computation
• PHYSICAL REVIEW A 84, 042329 (2011) Quadratic dynamical decoupling: Universality proof and error analysis
• PHYSICAL REVIEW A 84, 042328 (2011) Quadratic dynamical decoupling with nonuniform error suppression