(June 2008)
2008
Suppressing spin qubit dephasing by nuclear state preparation,
D. J. Reilly, J. M. Taylor, J. R. Petta, C. M. Marcus, M. P. Hanson and A. C. Gossard.
Science, 10.1126/science.1159221 (2008).
Exchange control of nuclear spin diffusion in a double quantum dot,
D. J. Reilly, J. M. Taylor, J. R. Petta , C. M. Marcus, M. P. Hanson and A. C. Gossard.
Submitted to Nature Physics, arXiv:0803.3082.
Measurement of temporal correlations of the Overhauser field in a double quantum dot,
D. J. Reilly, J. M. Taylor, E. A. Laird, J. R. Petta, C. M. Marcus, M. P. Hanson and A. C. Gossard.
Submitted to Physical Review Letters, arXiv:0712.4033.
2007
Fast single-charge sensing with an rf quantum point contact,
D. J. Reilly, C. M. Marcus, M. P. Hanson and A. C. Gossard
Applied Physics Letters, 91, 162101 (2007). Front Cover of October Issue.
Double quantum dot with integrated charge sensor based on Ge/Si heterostructure nanowires,
Y. Hu, H. O. H. Churchill, D. J. Reilly, J. Xiang, C. M. Lieber, and C. M. Marcus
Nature Nanotechnology, 2, 262, (2007).
2006
Current noise in quantum point contacts,
L. DiCarlo, Y. Zhang, D. T. McClure, D. J. Reilly, C. M. Marcus, L. N. Pfeiffer and K. W. West,
Proceedings of the 6th Rencontres du Vietnam, Hanoi (2006). arXiv:0704.3892
Shot-noise signatures of 0.7 structure and spin in a quantum point contact,
L. DiCarlo, Y. Zhang, D. T. McClure, D. J. Reilly, C. M. Marcus, L. N. Pfeiffer and K. W. West,
Physical Review Letters, 97, 036810 (2006).
Charge sensing in carbon nanotube quantum dots on microsecond timescales,
M. J. Biercuk, D. J. Reilly, T. M. Buehler, V. C. Chan, J. M. Chow, R. G. Clark and C. M. Marcus
Physical Review B, Rapid Communications, 73, 201402(R) (2006).
Phenomenology of the 0.7 conductance feature,
D. J. Reilly, Y. Zhang and L. DiCarlo
Physica E 34, 27 (2006).
Controlled single electron transfer between Si:P dots,
T. M. Buehler, V. Chan, A. J. Ferguson, A. S. Dzurak, F. E. Hudson, D. J. Reilly, A. R. Hamilton and R. G. Clark
Applied Physics Letters, 88, 192101 (2006).
Ion implanted Si:P double dot with gate tunable interdot coupling,
V. C. Chan, T. M. Buehler, A. J. Ferguson, D. R. McCamey, D. J. Reilly, A. S. Dzurak and R. G. Clark
Journal of Applied Physics, 100, 106104 (2006).
2005
Phenomenological model for the 0.7 conductance feature in quantum wires,
D. J. Reilly
Physical Review B, 72, 033309 (2005).
Direct measurement of the maximum tunnel rate in a radio frequency single electron transistor operated as a microwave mixer,
D. J. Reilly and T. M. Buehler
Applied Physics Letters, 87, 163122 (2005).
Single-shot readout with the radio frequency single electron transistor in the presence of charge noise,
T. M. Buehler, D. J. Reilly, R. P. Starrett, Andrew D. Greentree, A. R. Hamilton, A. S. Dzurak, R. G.Clark
Applied Physics Letters, 86, 143117 (2005).
Radio frequency operation of a double-island single electron transistor,
R. Brenner, T. M. Buehler and D. J. Reilly,
Journal of Applied Physics, 97, 034501 (2005).
Double-island single-electron transistor operated at radio-frequency for sensitive and fast charge detection, R. Brenner, T. M. Buehler and D. J. Reilly,
Microelectronic Engineering, 78, 218 (2005).
Single atom Si nanoelectronics using controlled single-ion implantation
M. Mitic, S. E. Andresen, C. Yang, T. Hopf, V. Chan, E. Gauja, F. E. Hudson, T. M. Buehler, R. Brenner, A. J. Ferguson, C. I. Pakes, S. M. Hearne, G. Tamanyan, D. J. Reilly, A. R. Hamilton, D. N. Jamieson, A. S. Dzurak, and R. G. Clark.
Microelectronic Engineering, 78, 279 (2005).
2004
Correlated charge detection for readout of a solid-state quantum computer,
T. M. Buehler, D. J. Reilly, R. Brenner, A. R. Hamilton, A. S. Dzurak, and R. G. Clark,
Applied Physics Letters, 82, 577 (2003).
Observing sub-microsecond telegraph noise with the radio frequency single electron transistor,
T.M. Buehler, D. J. Reilly, R. P. Starrett, V. C. Chan, A. R. Hamilton, A. S. Dzurak and R. G. Clark
Journal of Applied Physics, 96, 077424 (2004).
The 0.7 conductance feature above the Kondo temperature,
D. J. Reilly
Proc. 2nd Quantum Transport Nano-Hana International Workshop IPAP Conf. Ser5, 7 (2004).
Development and operation of the twin radio frequency single electron transistor for cross-correlated charge detection,
T. M. Buehler, D. J. Reilly, R. P. Starrett, N. A. Court, A. R. Hamilton, A. S. Dzurak, R. G.Clark,
Journal of Applied Physics, 96, 4508 (2004).
Charge-based quantum computing using single donors in semiconductors,
L. C. L. Hollenberg, A. S. Dzurak, C. Wellard, A. R. Hamilton, D. J. Reilly, G. J. Milburn, and R. G. Clark,
Physical Review B, 69, 113301 (2004).
2003
The twin radio frequency single electron transistor for correlated charge detection on microsecond time-scales,
T. M. Buehler, D. J. Reilly, R. P. Starrett, S. Kenyon, A. R. Hamilton, A. S. Dzurak, and R. G. Clark, Micoelectronic Engineering, 67, 775 (2003).
Single electron devices for simulating read-out in a solid state quantum computer,
T. M. Buehler, D. J. Reilly, R. P. Starrett, A. R. Hamilton, R. Brenner , S. Kenyon, N. A. Court, A. S. Dzurak, and R. G. Clark
Surface Science, 532, 1199 (2003).
Progress in silicon-based quantum computing
R.G. Clark, R. Brenner, T.M. Buehler, V. Chan, N.J. Curson, A.S. Dzurak, E. Gauja, H-S. Goan, A.D. Greentree, T. Hallam, A.R. Hamilton, L.C.L. Hollenberg, D.N. Jamieson, J.C. McCallum, G.J. Milburn, J.L. O'Brien, L. Oberbeck, C.I. Pakes, S. Prawer, D.J. Reilly, F.J. Ruess, S.R. Schofield, M.Y. Simmons, F.E. Stanley, R.P. Starrett, C. Wellard and C. Yang,
Philosophical Transactions of the Royal Society of London A 361, 1451 (2003).
Density-dependent spin polarization in ultra-low-disorder quantum wires,
D. J. Reilly, T. M. Buehler, J. L. O'Brien, A. R. Hamilton, A. S. Dzurak, R. G. Clark, B. E. Kane, L. N. Pfeiffer, and K. W. West,
Physical Review Letters, 89, 246801 (2002). See also: Article and interview feature in Physical Review Focus: 10 st24, "A Mesoscopic mystery" (2002).
Magnetic susceptibility of the normal-superconducting transition in high-purity single-crystal alpha-uranium,
J. L. O'Brien, A. R. Hamilton, R. G. Clark, C. H. Mielke, J. L. Smith, J. C. Cooley, D. G. Rickel, R. P. Starrett, D. J. Reilly, N. E. Lumpkin, R. J. Hanrahan Jr., and W. L. Hults,
Phys. Rev. B. 66, 064523 (2002).
Single-electron transistor architectures for charge motion detection in solid-state quantum computer devices
T. M. Buehler, R. Brenner, D. J. Reilly, A. R. Hamilton, A. S. Dzurak and R. G. Clark
Smart Materials and Structures, 11, 749 (2002).
Self-aligned fabrication process for silicon quantum computer devices,
T.M. Buehler, R.P. McKinnon, N.E. Lumpkin, R. Brenner, D.J. Reilly, L.D. Macks, A.R. Hamilton, A.S. Dzurak, R.G. Clark,
Nanotechnology, 13, 686 (2002).
2001
Many-body spin-related phenomena in ultra low-disorder quantum wires,
D. J. Reilly, G. R. Facer, A. S. Dzurak, B. E. Kane, R. G. Clark, P. J. Stiles, A. R. Hamilton, J. L. O'Brien, N. E. Lumpkin and L. N. Pfeiffer and K. W. West,
Physical Review B, 63, 121311(R) (2001).
Nanoscale single-electron transistor architectures for single spin detection in solid-state quantum computer devices
T.M. Buehler, R. Brenner, D.J. Reilly, A.R. Hamilton, A.S. Dzurak and R.G. Clark,
BioMEMS and Smart Nanostructures 4590, 329 (2001).
Construction of a silicon-based solid state quantum computer
A.S. Dzurak, M.Y. Simmons, A.R. Hamilton, R.G. Clark, R. Brenner, T.M. Buehler, N.J. Curson, E. Gauja, R.P. McKinnon, L.D. Macks, M. Mitic, J.L. O'Brien, L. Oberbeck, D.J. Reilly, S.R.Schofield, F.E. Stanley, D.N. Jamieson, S. Prawer, C. Yang and G.J. Milburn
Quantum Information and Computation 1, 82 (2001).
2000 & Before
Many-body spin interactions in semiconductor quantum wires,
D. J. Reilly, G. R. Facer, A. S. Dzurak, B. E. Kane, R. G. Clark, P. J. Stiles, J. L. O'Brien, N. E. Lumpkin, L. N. Pfeiffer, K. W. West
Australian Journal of Physics, 53, 543 (2000).
Effect of strain on ac power loss of Bi-2223/Ag superconducting tapes,
N. Savvides, J. Herrmann, D. Reilly, K. -H. Muller, F. Darmann, G. McCaughey, R. Zhao and M. Apperley,
Physica C, 306, 129 (1998).
Microwave properties and microstructure of Y1Ba2Cu3O7 thin films,
N. Savvides, A. Katsaros, D. Reilly, C. Foley, K. Leong, J. Ceremuga,
Czech Journal of Physics, 46, 1109 (1996).