1. QCQC 1998:
Palm Springs,
California,
USA
Colin P. Williams (Ed.):
Quantum Computing and Quantum Communications, First NASA International Conference, QCQC'98, Palm Springs, California, USA, February 17-20, 1998, Selected Papers.
Lecture Notes in Computer Science 1509 Springer 1998, ISBN 3-540-65514-X 
@proceedings{DBLP:conf/qcqc/1998,
editor = {Colin P. Williams},
title = {Quantum Computing and Quantum Communications, First NASA International
Conference, QCQC'98, Palm Springs, California, USA, February
17-20, 1998, Selected Papers},
booktitle = {QCQC},
publisher = {Springer},
series = {Lecture Notes in Computer Science},
volume = {1509},
year = {1998},
isbn = {3-540-65514-X},
bibsource = {DBLP, http://dblp.uni-trier.de}
}
Entanglement and Quantum Algorithms
- Gilles Brassard, Tal Mor:
Multi-particle Entanglement via Two-Particle Entanglement.
1-9
- Amir Fijany, Colin P. Williams:
Quantum Wavelet Transforms: Fast Algorithms and Complete Circuits.
10-33
- Jeffrey Yepez:
Quantum Computation of Fluid Dynamics.
34-60
- Richard Cleve, Wim van Dam, Michael Nielsen, Alain Tapp:
Quantum Entanglement and the Communication Complexity of the Inner Product Function.
61-74
- Michail Zak, Colin P. Williams:
Quantum Recurrent Networks for Simulating Stochastic Processes.
75-88
- Günter Mahler, Ilki Kim:
Correlation between Correlations: Process and Time in Quantum Networks.
89-102
- Richard Jozsa:
Quantum Effects in Algorithms.
103-112
- Colin P. Williams, Alexander G. Gray:
Automated Design of Quantum Circuits.
113-125
- Lov K. Grover:
Quantum Search on Structured Problems.
126-139
- David Biron, Ofer Biham, Eli Biham, Markus Grassl, Daniel A. Lidar:
Generalized Grover Search Algorithm for Arbitrary Initial Amplitude Distribution.
140-147
- Dong Pyo Chi, Jinsoo Kim:
Quantum Database Search by a Single Query.
148-151
- Yuri Ozhigov:
Quantum Computer Can Not Speed Up Iterated Applications of a Black Box.
152-159
- Michail Zak:
Quantum Resonance for Solving NP-complete Problems by Simulations.
160-166
- Daniel S. Abrams, Seth Lloyd:
Computational Complexity and Physical Law.
167-173
- Michele Mosca, Artur Ekert:
The Hidden Subgroup Problem and Eigenvalue Estimation on a Quantum Computer.
174-188
- Giuseppe Castagnoli, Dalida Monti:
A Diakoptic Approach to Quantum Computation.
189-199
Quantum Cryptography
- R. J. Hughes, W. T. Buttler, P. G. Kwiat, S. K. Lamoreaux, G. G. Luther, G. L. Morgan, J. E. Nordholt, C. G. Peterson, C. M. Simmons:
Practical Free-Space Quantum Cryptography.
200-213
- S. Roy, G. Kar:
Quantum Cryptography, Eavesdropping, and Unsharp Spin Measurement.
214-217
Quantum Copying and Quantum Information Theory
- Nicolas J. Cerf:
Information-Theoretic Aspects of Quantum Copying.
218-234
- Vladimí R. Buzek, M. Hillery:
Universal Optimal Cloning of Qubits and Quantum Registers.
235-246
- David P. DiVincenzo, Christopher A. Fuchs, Hideo Mabuchi, John A. Smolin, Ashish V. Thapliyal, Armin Uhlmann:
Entanglement of Assistance.
247-257
- Christoph Adami, Nicolas J. Cerf:
What Information Theory Can Tell Us About Quantum Reality.
258-268
- Lev B. Levitin:
Quantum Generalization of Conditional Entropy and Information.
269-275
- A. E. Allahverdyan, D. B. Saakian:
Accessible Information in Multi-access Quantum Channels.
276-284
- Michael Westmoreland, Benjamin Schumacher:
Capacities of Quantum Channels and Quantum Coherent Information.
285-295
- D. B. Saakian, A. E. Allahverdyan:
Strengthened Lindblad Inequality: Applications in Non-equilibrium Thermodynamics and Quantum Information Theory.
296-301
Quantum Error Correction and Fault-Tolerant Quantum Computing
Embodiments of Quantum Computers
- Raymond Laflamme, Emanuel Knill, Wojciech H. Zurek, P. Catasti, S. V. S. Mariappan:
NMR GHZ.
357-363
- Charles M. Bowden, Jonathan P. Dowling, Steven P. Hotaling:
Quantum Computing Using Electron-Nuclear Double Resonances.
364-372
- Hans-J. Briegel, J. Ignacio Cirac, Wolfgang Dür, Steven J. van Enk, H. Jeff Kimble, Hideo Mabuchi, Peter Zoller:
Physical Implementations for Quantum Communication in Quantum Networks.
373-382
- James D. Franson, Todd B. Pittman:
An Optical Approach to Quantum Computing.
383-390
- Christoph Adami, Nicolas J. Cerf:
Quantum Computation with Linear Optics.
391-401
- D. Vitali, P. Tombesi:
Decoherence Control for Optical Qubits.
402-412
- D. V. Averin:
Adiabatic Controlled-NOT Gate for Quantum Computation.
413-425
- D. F. V. James, M. S. Gulley, M. H. Holzscheiter, R. J. Hughes, P. G. Kwiat, S. K. Lamoreaux, C. G. Peterson, V. D. Sandberg, M. M. Schauer, C. M. Simmons, D. Tupa, P. Z. Wang, A. G. White:
Trapped Ion Quantum Computer Research at Los Alamos.
426-437
- Ralph G. DeVoe:
Arrays of Elliptical Ion Traps for Parallel Quantum Computing.
438-446
- Kevin M. Obenland, Alvin M. Despain:
Simulating the Effect of Decoherence and Inaccuracies on a Quantum Computer.
447-459
- Alexander A. Balandin, Kang L. Wang:
Implementation of Quantum Controlled-NOT Gates Using Asymmetric Semiconductor Quantum Dots.
460-467
- Hideaki Matsueda:
Spatiotemporal Dynamics of Quantum Computing Solid Dipole-Dipole Block Systems.
468-477
Copyright © Mon Nov 9 22:09:44 2009
by Michael Ley (ley@uni-trier.de)
