Selected Papers Related to Quantum Computing

• Algorithms
  • Polynomial-Time Algorithms for Prime Factorization and Discrete Logarithms on a Quantum Computer
    Peter W. Shor
  • A fast quantum mechanical algorithm for database search
    Lov K. Grover
  • Quantum Algorithms Revisited
    Richard Cleve, Artur Ekert, Chiara Macchiavello, Michele Mosca
  • A quantum algorithm providing exponential speed increase for finding eigenvalues and eigenvectors
    Daniel S. Abrams, Seth Lloyd
  • Polynomial-Time Solution to the Hidden Subgroup Problem for a Class of non-abelian Groups
    Martin Rötteler, Thomas Beth
  • Grover Algorithm with zero theoretical failure rate
    Gui Lu Long
  • A General SU(2) Formulation for Quantum Searching with Certainty
    Jin-Yuan Hsieh, Che-Ming Li
  • Quantum Hidden Subgroup Problems: A Mathematical Perspective
    Samuel J. Lomonaco, Louis H. Kauffman
  • Quantum searching a classical database (or how we learned to stop worrying and love the bomb)
    Terry Rudolph, Lov K. Grover
  • Exponential algorithmic speedup by quantum walk
    Andrew M. Childs, Richard Cleve, Enrico Deotto, Edward Farhi, Samuel Gutmann, Daniel A. Spielman
  • A Quantum Random Walk Search Algorithm
    Neil Shenvi, Julia Kempe, K. Birgitta Whaley
  • Quantum Algorithms for some Hidden Shift Problems
    Wim van Dam, Sean Hallgren, Lawrence Ip
  • Exact quantum Fourier transforms and discrete logarithm algorithms
    Michele Mosca, Christof Zalka
  • Shor's discrete logarithm quantum algorithm for elliptic curves
    John Proos, Christof Zalka
  • A subexponential-time quantum algorithm for the dihedral hidden subgroup problem
    Greg Kuperberg
  • Quantum Search of Spatial Regions
    Scott Aaronson, Andris Ambainis
  • Quantum random walks - an introductory overview
    Julia Kempe
  • Generic Quantum Fourier Transforms
    Cristopher Moore, Daniel Rockmore, Alexander Russell
  • Quantum walk algorithm for element distinctness
    Andris Ambainis
  • A Subexponential Time Algorithm for the Dihedral Hidden Subgroup Problem with Polynomial Space
    Oded Regev
  • Quantum algorithms without initializing the auxiliary qubits
    Dong Pyo Chi, Jeong San Kim, Soojoon Lee
  • Quantum computational gradient estimation
    David Bulger
  • Quantum algorithm for a generalized hidden shift problem
    Andrew Childs, Wim van Dam
  • Grover like Operator Using Only Single-Qubit Gates
    Go Kato
  • Quantum Algorithm for Linear Systems of Equations (preprint)
    Aram W. Harrow, Avinatan Hassidim, Seth Lloyd
  • Quantum Algorithm for Data Fitting (preprint, synopsis)
    Nathan Wiebe, Daniel Braun, Seth Lloyd
• Architectures
  • Ion Traps
    • Quantum Computations with Cold Trapped Ions
      Ignacio Cirac, Peter Zoller
    • Architecture for a large-scale ion-trap quantum computer
      D. Kielpinski, Christopher Monroe, David J. Wineland
    • How to build a 300 bit, 1 Gop quantum computer
      Andrew Steane
    • Surface-Electrode Architecture for Ion-Trap Quantum Information Processing
      John Chiaverini, Brad Blakestad, Joe Britton, John Jost, Chris Langer, Dietrich Leibfried, Roee Ozeri, David J. Wineland
  • Matter Qubits and Linear Optics
    • Efficient high-fidelity quantum computation using matter qubits and linear optics (preprint)
      Sean Barrett, Pieter Kok
  • Optical
    • A scheme for efficient quantum computation with linear optics
      Emanuel H. Knill, Raymond Laflamme, Gerard J. Milburn
    • Optical quantum computation using cluster states
      Michael A. Nielsen
  • Solid State
    • Quantum computation with quantum dots
      Daniel Loss, David P. DiVincenzo
    • A silicon- based nuclear spin quantum computer
      Bruce E. Kane
    • An all silicon quantum computer
      Thaddeus Ladd, J.R. Goldman, F. Yamaguchi, Y. Yamamoto, E. Abe, K.M. Itoh
    • Hydrogenic spin quantum computing in silicon: a digital approach
      A.J. Skinner, M.E. Davenport, Bruce E. Kane
    • Robust Quantum Computation with Quantum Dots
      C. Stephen Hellberg
    • Quantum computing with antiferromagnetic spin clusters
      Florian Meier, Jeremy Levy, Daniel Loss
    • Fermionic Bell-State Analyzer for Spin Qubits
      Hans-Andreas Engel, Daniel Loss
    • A Processor Core Model for Quantum Computing
      Man-Hong Yung, Simon Benjamin, Sougato Bose
• Computational Models
  • Quantum theory, the Church-Turing principle and the universal quantum computer
    David Deutsch
  • Quantum Computation by Adiabatic Evolution
    Edward H. Farhi, Jeffrey Goldstone, Samuel Gutmann, Michael Sipser
  • Topological Quantum Computation
    Michael H. Freedman, Alexei Kitaev, Michael Larsen, Zhenghan Wang
  • A One-Way Quantum Computer
    Robert Raußendorf, Hans J. Briegel
  • Adiabatic Quantum Computation is Equivalent to Standard Quantum Computation
    Dorit Aharonov, Wim van Dam, Julia Kempe, Zeph Landau, Seth Lloyd, Oded Regev
• Cryptography
  • Quantum Cryptography: Public Key Distribution and Coin Tossing
    Charles H. Bennett, Gilles Brassard
  • Secure communication with single-photon two-qubit states
    Almut Beige, Berthold-Georg Englert, Christian Kurtsiefer, Harald Weinfurter
  • Proof of security of quantum key distribution with two-way classical communications
    Daniel Gottesman, Hoi-Kwong Lo
  • Secure communication with a publicly known key
    Almut Beige, Berthold-Georg Englert, Christian Kurtsiefer, Harald Weinfurter
  • Secure direct communication using entanglement
    Kim Boström
  • Practical free-space quantum key distribution over 10 km in daylight and at night
    Richard J. Hughes, Jane E. Nordholt, Derek Derkacs, Charles G. Peterson
  • Building the quantum network
    Chip Elliott
  • Quantum Cryptography in Practice
    Chip Elliott, David Pearson, Gregory D. Troxel
  • Totally Secure Classical Communication Utilizing Johnson (-like) Noise and Kirchoff's Law
    Laszlo B. Kish
• Error Correction and Avoidance
  • A Class of Quantum Error-Correcting Codes Saturating the Quantum Hamming Bound
    Daniel Gottesman
  • Quantum computing with realistically noisy devices (preprint)
    Emanuel H. Knill
• Experimental Implementation
  • Ion Traps
    • Demonstration of a fundamental quantum logic gate
      Christopher Monroe, D.M. Meekhof, B.E. King, W.M. Itano, David J. Wineland
    • Implementation of the Deutsch-Jozsa algorithm on an ion-trap quantum computer
      Stephan Gulde, Mark Riebe, Gavin Lancaster, Christoph Becher, Jürgen Eschner, Hartmut Häffner, Ferdinand Schmidt-Kaler, Isaac L. Chuang, Rainer Blatt
    • Realization of the Cirac-Zoller controlled-NOT quantum gate
      Ferdinand Schmidt-Kaler, Hartmut Häffner, Mark Riebe, Stephan Gulde, Gavin P.T. Lancaster, Thomas Deuschle, Christoph Becher, Christian F. Roos, Jürgen Eschner, Rainer Blatt
    • Long-Lived Qubit Memory Using Atomic Ions (preprint)
      C. Langer, R. Ozeri, J. D. Jost, J. Chiaverini, B. DeMarco, A. Ben-Kish, R. B. Blakestad, J. Britton, D. B. Hume, W. M. Itano, D. Leibfried, R. Reichle, T. Rosenband, T. Schaetz, P. O. Schmidt, D. J. Wineland
  • Nuclear Magnetic Resonance
    • Experimental Implementation of Fast Quantum Searching
      Isaac Chuang, Neil Gershenfeld, Mark Kubinec
    • Experimental realization of Shor's quantum factoring algorithm using nuclear magnetic resonance
      Lieven M.K. Vandersypen, Matthias Steffen, Gregory Breyta, Costantino S. Yannoni, Mark H. Sherwood, Isaac L. Chuang
    • Experimental implementation of an adiabatic quantum optimization algorithm
      Matthias Steffen, Wim van Dam, Tad Hogg, Greg Breyta, Isaac L. Chuang
    • Experimental Implementation of the Quantum Random-Walk Algorithm
      Jiangfeng Du, Hui Li, Xiaodong Xu, Mingjun Shi, Jihui Wu, Xianyi Zhou, Rongdian Han
  • Optical
    • Experimental controlled-NOT logic gate for single photons in the coincidence basis
      Todd B. Pittman, M. J. Fitch, B. C. Jacobs, James D. Franson
    • Demonstration of an all-optical quantum controlled-NOT gate (preprint)
      Jeremy L. O'Brien, Geoffrey J. Pryde, Andrew G. White, Tim C. Ralph, David A. Branning
    • Experimental one-way quantum computing (preprint)
      Philip Walther, Kevin Resch, Terry Rudolph, Emmanuel Schenck, Harald Weinfurter, Vlatko Vedral, Markus Aspelmeyer, Anton Zeilinger
  • Silicon-Based
    • Quantum oscillations in two coupled charge qubits
      Yu.A. Pashkin, T. Yamamoto O. Astafiev, Y. Nakamura, D.V. Averin, J.S. Tsai
• Geometric Pictures of Multi-Qubit States and Entanglement
  • Geometric Quantum Mechanics
    Dorje C. Brody, Lane P. Hughston
  • CP^n, or, entanglement illustrated
    Ingemar Bengtsson, J. Braennlund, Karol Zyczkowski
  • Geometry of entangled states, Bloch spheres and Hopf fibrations
    Remy Mosseri, Rossen Dandoloff
  • A Geometric Picture of Entanglement and Bell Inequalities
    Reinhold A. Bertlmann, Heide Narnhofer, W. Thirring
  • A geometric theory of non-local two-qubit operations
    Jun Zhang, Jiri Vala, K. Birgitta Whaley, Shankar Sastry
  • Geometry of the 3-Qubit State, Entanglement and Division Algebras
    Bogdan A. Bernevig, Han-Dong Chen
  • Topological phase for entangled two-qubit states
    Perola Milman, Remy Mosseri
  • Two and Three Qubits Geometry and Hopf Fibrations
    Remy Mosseri
  • Geometric Approach to Digital Quantum Information
    Remy Mosseri
  • The twistor geometry of three-qubit entanglement
    Péter Lévay
  • Elliptical orbits in the Bloch sphere
    Aikaterini Mandilara, John W. Clark, Mark S. Byrd
  • On the geometry of a class of N-qubit entanglement monotones
    Péter Lévay
  • Entanglement monotone for multi-qubit states based on geometric invariant theory
    Hoshang Heydari
• Information Theory
  • Two-bit gates are universal for quantum computation
    David P. DiVincenzo
  • The Adaptive Classical Capacity of a Quantum Channel, or Information Capacities of Three Symmetric Pure States in Three Dimensions
    Peter W. Shor
  • Exact Performance of Concatenated Quantum Codes
    Hideo Mabuchi
  • Partial quantum information (preprint)
    Michal Horodecki, Jonathan Oppenheim, Andreas Winter
• Quantum Mechanics
  • Quantum Mechanical Interaction-Free Measurements
    Avshalom C. Elitzur, Lev Vaidman
  • Origin of quantum-mechanical complementarity probed by a 'which-way' experiment in an atom interferometer (PDF)
    S. Dürr, Thomas Nonn, Gerhard Rempe
  • Decoherence of matter waves by thermal emission of radiation (preprint)
    Lucia Hackermüller, Klaus Hornberger, Björn Brezger, Anton Zeilinger, Markus Arndt

Last updated on Feb 11 2013 at 14:51
by Ian Glendinning