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Équipe de Recherche en Physique de l'Information Quantique



Publications


2000
[14]
A. Blais, A.M. Zagoskin,
Operation of universal gates in a solid-state quantum computer based on clean Josephson junctions between d-wave superconductors,
Phys. Rev. A, 61, (423081-423084), 2000,
[bib] [pdf]
[13]
P. Grant, C. Py, C. Mossner, A. Blais, H. Tran, M. Gao,
Electron field emission from diamond-like carbon, a correlation with surface modifications,
Journal of Applied Physics, 87, (1356-1360), 2000,
[bib] [pdf]
[12]
Ciorga, M. and Sachrajda, A.S. and Hawrylak, P. and Gould, C. and Zawadzki, P. and Jullian, S. and Feng, Y. and Wasilewski, Z.,
Addition spectrum of a lateral dot from Coulomb and spin-blockade spectroscopy,
Physical Review B - Condensed Matter and Materials Physics, 61, (R16315-R16318), 2000,
[bib] [url]
[11]
Coleridge, P.T. and Zawadzki, P. and Sachrajda, A.S. and Williams, R.L. and Feng, Y.,
Universal behaviour of metal-insulator transitions in the p-SiGe system,
Physica E: Low-Dimensional Systems and Nanostructures, 6, (268-271), 2000,
[bib] [url]
[10]
D Senechal and D Perez and M Pioro-Ladriere,
Spectral weight of the Hubbard model through cluster perturbation theory,
Phys Rev Lett, 84, (522--525), 2000,
[bib]
[9]
Deblock, R., Noat, Y., Bouchiat, H., Reulet, B., Mailly, D.,
Measurements of Flux-Dependent Screening in Aharonov-Bohm Rings,
Physical Review Letters, 84, (5379-5382), 2000,
[bib] [url]
[8]
Deblock, R., Noat, Y., Reulet, B., Bouchiat, H.,
Signature of phase coherence in isolated mesoscopic systems [Signature de la cohérence de phase dans les systèmes mésoscopiqes isolés],
Comptes Rendus de l’Academie des Sciences - Series IV: Physics, Astrophysics, 1, (787-800), 2000,
[bib] [url]
[7]
Fafard, S. and Liu, H.C. and Wasilewski, Z.R. and McCaffrey, J. and Spanner, M. and Raymond, S. and Allen, C.Ni. and Hinzer, K. and Lapointe, J. and Struby, C. and Gao, M. and Hawrylak, P. and Gould, C. and Sachrajda, A. and Zawadzki, P.,
Quantum dot devices,
Proceedings of SPIE - The International Society for Optical Engineering, 4078, (100-114), 2000,
[bib] [url]
[6]
Feng, Y. and Sachrajda, A.S. and Zawadzki, P. and Kolind, S. and Buchanan, M. and Smet, J.H. and Lapointe, J. and Marshall, P.A.,
Fabrication of parallel quantum point contacts with submicron airbridges,
Journal of Vacuum Science and Technology A: Vacuum, Surfaces and Films, 18, (730-733), 2000,
[bib] [url]
[5]
Gould, C. and Hawrylak, P. and Sachrajda, A. and Feng, Y. and Zawadzki, P. and Wasilewski, Z.,
Correlations effects in few-electron quantum dots between ν = 2 and 1,
Physica E: Low-Dimensional Systems and Nanostructures, 6, (461-465), 2000,
[bib] [url]
[4]
Hugo Touchette and David Poulin,
Aspects numériques des simulations du modèle de Hubbard --- Momte Carlo quantique et méthode d’entropie maximum,
2000,
[bib]
[3]
Reulet, B., Kasumov, A.Yu., Kociak, M., Deblock, R. , Khodos, I.I., Gorbatov, Yu.B., Volkov, V.T., Journet, C., Bouchiat, H.,
Acoustoelectric effects in carbon nanotubes,
Physical Review Letters, 85, (2829-2832), 2000,
[bib] [url]
[2]
S. Moukouri, S. Allen, F. Lemay and B. Kyung and D. Poulin and Y. M. Vilk and and A.-M. S. Tremblay,
Many-body theory versus simulations for the pseudogap in the Hubbard model,
Phys. Rev. B, 61, (7887), 2000,
[bib] [pdf] [eprint]
[1]
Zozoulenko, I.V. and Sachrajda, A.S. and Gould, C. and Berggren, K.-F. and Zawadzki, P. and Feng, Y. and Wasilewski, Z.,
Magnetoconductance of a few-electron open quantum dot,
Physica E: Low-Dimensional Systems and Nanostructures, 6, (409-413), 2000,
[bib] [url]