Volume 1, Number 1, January 2001
Volume 1, Number 2, August 2001
Volume 1, Number 3, October 2001
Review
Researches
- Kevin K. H. Cheung, Michele Mosca:
Decomposing finite Abelian groups.
26-32
- Gernot Alber, Aldo Delgado, Igor Jex:
Optimal two-particle entanglement by universal quantum processes.
33-51
- P. K. Aravind:
Optimal quantum measurements for spin-1 and spin-3/2 particles.
52-61
- Rainer Steinwandt, Dominik Janzing, Thomas Beth:
On using quantum protocols to detect traffic analysis.
62-69
- Michal Horodecki, Pawel Horodecki, Ryszard Horodecki, Debbie W. Leung, Barbara M. Terhal:
Classical capacity of a noiseless quantum channel assisted by noisy entanglement.
70-78
- Geza Giedke, Lu-Ming Duan, J. Ignacio Cirac, Peter Zoller:
Distillability criterion for all bipartite Gaussian states.
79-86
Perspective
Book review
- Gerard J. Milburn:
on "The Physics of Quantum Information: Quantum Cryptography, Quantum Teleportation, Quantum Computation".
89-90
Webcorner
- Pieter Kok:
Quantum information and computation web-corner.
91-92
Volume 1, Number 4, December 2001
Implementation of Quantum Computation
- Robert Clark:
Editorial.
- David P. DiVincenzo:
Dogma and heresy in quantum computing.
1-6
- Hideo Mabuchi, M. Armen, B. Lev, Marko Loncar, Jelena Vuckovic, H. Jeff Kimble, John Preskill, M. Roukes, Axel Scherer, Steven J. van Enk:
Quantum networks based on cavity QED.
7-12
- Gerard J. Milburn, Timothy C. Ralph, Andrew G. White, Emanuel Knill, Raymond Laflamme:
Efficient linear optics quantum coputation.
13-19
- Poul S. Jessen, David L. Haycock, Gerd Klose, G. A. Smith:
Quantum control and information processing in optical lattices.
20-32
- Julia Kempe, David Bacon, David P. DiVincenzo, K. Brigitta Whaley:
Encoded universality from a single physical interaction.
33-55
- Thaddeus D. Ladd, Yoshihisa Yamamoto, Jonathan R. Goldman, Fumiko Yamaguchi:
Solid-state crystal lattice NMR quantum computation.
56-81
- Andrew Steven Dzurak, Michelle Yvonne Simmons, Alexander Rudolf Hamilton, Robert Graham Clark, Rolf Brenner, Tilo Markus Buehler, Neil Jonathan Curson, Eric Gauja, Rita Patricia McKinnon, Linda D. Macks, Mladen Mitic, Jeremy Lloyd O'Brien, Lars Oberbeck, David J. Reilly, Steven Richard Schofield, Fay E. Stanley:
Construction of a silicon-based solid state quantum computer.
82-95
- Crispin H. W. Barnes, J. M. Shilton, A. M. Robinson:
Quantum computation using electrons trapped by surface acoustic waves.
96-101
- Mark I. Dykman, Philip M. Platzman:
Quantum computing with electrons floating on liquid helium.
102-107
- John M. Goodkind, Subrahmanyam Pilla:
Fabrication of the structure for qubits using electrons on liquid helium.
108-112
- David Kielpinski, Amit Ben-Kish, Joe Britton, Volker Meyer, Mary A. Rowe, Wayne M. Itano, David J. Wineland, Charles Sackett, Christopher R. Monroe:
Recent results in trapped-ion quantum computing at NIST.
113-123
- J. S. Tsai, Y. Nakamura, Yu. Pashkin:
Qubit utilizing charge-number state in superconducting nanostructure.
124-128
- J. R. Tucker, T.-C. Shen:
Fabricating an all-epitaxial silicon quantum computer.
129-133
- Lieven M. K. Vandersypen, Isaac L. Chuang:
NMR quantum computing: lessons for the future.
134-142
- P. Echternach, Colin P. Williams, S. C. Dultz, Samuel L. Braunstein, Jonathan P. Dowling:
Universal quantum gates for single cooper pair box based quantum computing.
143-150
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