Centre Related Publications

Journal Articles


[1] Electrically controlling single-spin qubits in a continuous microwave field, A. Laucht, J.T. Muhonen, F.A. Mohiyaddin, R. Kalra, J.P. Dehollain, S. Freer, F.E. Hudson, M. Veldhorst, R. Rahman, G. Klimeck, K.M. Itoh, D.N. Jamieson, J.C. McCallum, A.S. Dzurak and A. Morello, Science Advances 1, e1500022 (2015).

[2] Quantifying the quantum gate fidelity of single-atom spin qubits in silicon by randomized benchmarking, J.T. Muhonen, A. Laucht, S. Simmons, J.P. Dehollain, R. Kalra, F.E. Hudson, S. Freer, K.M. Itoh, D.N. Jamieson, J.C. McCallum, A.S. Dzurak and A. Morello, Journal Of Physics-condensed Matter 27, 154205 (2015).

[3] Single atom devices by ion implantation, J. van Donkelaar, C. Yang, A.D.C. Alves, J.C. McCallum, C. Hougaard, B.C. Johnson, F.E. Hudson, A.S. Dzurak, A. Morello, D. Spemann and D.N. Jamieson, Journal Of Physics: Condensed Matter 27, 154204 (2015).

[4] High-fidelity adiabatic inversion of a P-31 electron spin qubit in natural silicon, A. Laucht, R. Kalra, J.T. Muhonen, J.P. Dehollain, F.A. Mohiyaddin, F.E. Hudson, J.C. McCallum, D.N. Jamieson, A.S. Dzurak and A. Morello, Applied Physics Letters 104, 092115 (2014).

[5] Single-shot readout and relaxation of singlet and triplet states in exchange-coupled P31 electron spins in silicon, J.P. Dehollain, J.T. Muhonen, K.Y. Tan, A. Saraiva, D.N. Jamieson, A.S. Dzurak and A. Morello, Physical Review Letters 112, 236801 (2014).

[6] Storing quantum information for 30 seconds in a nanoelectronic device, J.T. Muhonen, J.P. Dehollain, A. Laucht, F.E. Hudson, T. Sekiguchi, K.M. Itoh, D.N. Jamieson, J.C. McCallum, A.S. Dzurak, A. Morello, Nature Nanotechnology 9, 986 (2014).

[7] Coherent control of a single 29Si nuclear spin qubit , J.J. Pla, F.A. Mohiyaddin, K.Y. Tan, J.P. Dehollain, R. Rahman, G. Klimeck, D.N. Jamieson, A.S. Dzurak and A. Morello, Physical Review Letters 113, 246801 (2014).

[8] High-fidelity readout and control of a nuclear spin qubit in silicon, J.J. Pla, K.Y. Tan, J.P. Dehollain, W.H. Lim, J.J.L. Morton, F.A. Zwanenburg, D.N. Jamieson, A.S. Dzurak and A. Morello, Nature 496, 334 (2013).

[9] Controlled deterministic implantation by nanostencil lithography at the limit of ion-aperture straggling, A.D.C. Alves, J. Newnham, J.A. van Donkelaar, S. Rubanov, J.C. McCallum and D.N. Jamieson, Nanotechnology 24, 145304 (2013).

[10] Modeling of ion beam induced charge sharing experiments for the design of high resolution position sensitive detectors, J. Forneris, D.N. Jamieson, G. Giacomini, C. Yang and E. Vittone, Nuclear Instruments & Methods In Physics Research Section B-beam Interactions With Materials And Atoms 306, 169 (2013).

[11] Single-ion implantation for the development of Si-based MOSFET devices with quantum functionalities, J.C. McCallum D.N. Jamieson and C. Yang, A.D. Alves, B.C. Johnson, T. Hopf, S.C. Thompson and J.A. van Donkelaar, Advances In Materials Science & Engineering 2012, 272694 (2012).

[12] A single-atom electron spin qubit in silicon, J.J. Pla, K.Y. Tan, J.P. Dehollain, W-H. Lim, J.J.L. Morton, D.N. Jamieson, A.S. Dzurak and A. Morello, Nature 489, 541 (2012).

[13] Charge sharing in multi-electrode devices for deterministic doping studied by IBIC, L.M. Jong, J.N. Newnham, C. Yang, J.A. Van Donkelaar, F.E. Hudson, A.S. Dzurak and D.N. Jamieson, Nuclear Instruments And Methods In Physics Research Section B: Beam Interactions With Materials And Atoms 269, 2336 (2011).

[14] Electron Tunnel rates in a donor-silicon single electron transistor hybrid, H. Huebl, C. Nugroho, A. Morello, C. Escott, M. Eriksson, C. Yang, D.N. Jamieson, R.G. Clark and A.S. Dzurak, Physical Review B 81, 235318 (2010).

[15] Characterization of silicon polycrystalline solar cells at cryogenic temperatures with ion beam-induced charge, K.K. Lee and D.N. Jamieson, Solar Energy Materials And Solar Cells 94, 2405 (2010).

[16] Probe and control of the reservoir density of states in single-electron devices, M. Möttönen, K.Y. Tan, K.W. Chan, F.A. Zwanenburg, W. H. Lim, C.C. Escott, J.-M. Pirkkalainen, A. Morello, C. Yang, J.A. van Donkelaar, A.D.C. Alves, D.N. Jamieson, L.C.L. Hollenberg, and A.S. Dzurak, Physical Review B (rapid Communications) 81, 161304 (2010).

[17] Microstructure evolution in carbon-ion implanted sapphire, J.O. Orwa, J. L. Peng, J.C. McCallum, D.N. Jamieson, S. Rubanov and S. Prawer, Journal Of Applied Physics 107, 23508 (2010).

[18] Top-down pathways to devices with few and single atoms placed to high precision, J.A. van Donkelaar, A.D Greentree, A.D.C. Alves, L.M. Jong, L.C.L. Hollenberg and D.N. Jamieson, Physics 12, 65016 (2010).

[19] Investigation of avalanche silicon detectors for low energy single ion implantation applications, C. Yang and D.N. Jamieson, Nuclear Instruments And Methods In Physics Research B 268, 2034 (2010).

[20] Coherent tunneling adiabatic passage with the alternating coupling scheme, L.M. Jong, A.D. Greentree, V.I. Conrad, L.C.L. Hollenberg and D.N. Jamieson, Nanotechnology 20, 405402 (2009).

[21] Architecture for high-sensitivity single-shot readout and control of the electron spin of individual donors in silicon, A. Morello, C.C. Escott, H. Huebl, L.H. Willems van Beveren, L.C.L. Hollenberg, D.N. Jamieson, A.S. Dzurak and R.G. Clark, Physical Review B (rapid Communication) 80, 81307 (2009).

[22] Scanning transmission ion microscopy of nanoscale apertures, A. Alves, J. van Donkelaar, S. Rubanov, P. Reichart, D.N. Jamieson, M. T aylor, R. Franich and P.N. Johnston, Journal Of The Korean Physical Society 53, 3704 (2008).

[23] Fabrication of ultra thin single crystal diamond membranes, B.A. Fairchild, P. Olivero, S. Rubanov, A.D. Greentree, F. Waldermann, R.A. Taylor, I. Walmsley, J.M. Smith, S. H untington, B.C. Gibson, D.N. Jamieson and S. Prawer, Advanced Materials 20, 4793 (2008).

[24] The response of silicon detectors to low-energy ion implantation, T. Hopf, C. Yang, S.E. Andresen and D.N. Jamieson, Journal Of Physics: Condensed Matter 20, 415205 (2008).

[25] Low-noise detection system for the counted implantation of single ions in silicon, T. Hopf, C. Yang, S.M. Hearne, D.N. Jamieson, E. Gauja, S.E. Andresen and A.S. Dzurak, Ieee Transactions On Nuclear Science 55, 812 (2008).

[26] Gate-controlled charge transfer in Si:P double quantum dots, F.E. Hudson, A.J. Ferguson, C.C. Escott, C. Yang, D.N. Jamieson, R.G. Clark and A.S. Dzurak, Nanotechnology 19, 195402 (2008).

[27] Bias spectroscopy and simultaneous single-electron transistor charge state detection of Si:P double dots, M. Mitic, K.D. Petersson, M.C. Cassidy, R.P. Starrett, E. Gauja, A.J. Ferguson, C. Yang, D.N. Jamieson, R.G. Clark and A.S. Dzurak, Nanotechnology 19, 265201 (2008).

[28] Characterization of ion tracks in PMMA for single ion lithography, A. Alves, P.N. Johnston, P. Reichart, D.N. Jamieson and R. Siegele, Nuclear Instruments & Methods In Physics Research Section B-beam Interactions With Materials And Atoms 260, 431 (2007).

[29] Charge state control and relaxation in an atomically precise phosphorus doped silicon device, S.E. Andresen, R. Brenner, C.J. Wellard, C. Yang, T. Hopf, C.C. Escott, R.G. Clark, A.S. Dzurak, D.N. Jamieson and L.C.L. Hollenberg, Nano Letters 7, 2000 (2007).

[30] Optical tomographic reconstruction of ion beam induced refractive index changes in silica, X.M. Goh, N.M. Dragomir, D.N. Jamieson, A. Roberts and D.X. Belton, Applied Physics Letters 91, 181102 (2007).

[31] Extraordinary optical transmission with coaxial apertures, S.M. Orbons, A. Roberts, D.N. Jamieson, M.I. Haftel, C. Schlockermann, D. Freeman and B. Luther-Davies, Applied Physics Letters 90, 251107 (2007).

[32] Optical Properties of Silver Composite Metamaterials, S.M. Orbons, D. Freeman, B. Luther-Davies, B.C. Gibson, S.T. H untington, D.N. Jamieson and A. Roberts, Physica B Condensed Matter 394, 176 (2007).

[33] Ion beam lithography using a nano-aperture, M.L. Taylor, A. Alves, P. Reichart, R.D. Franich, S. Rubanov, P. Johnston and D.N. Jamieson, Nuclear Instruments & Methods In Physics Research Section B-beam Interactions With Materials And Atoms 260, 426 (2007).

[34] Creating diamond color centers for quantum optical applications, F.C. Waldermann, P. Olivero, J. Nunn, K. S urmacz, Z.Y. Wang, D. Jaksch, R.A. Taylor, I.A. Walmsley, M. Draganski, P. Reichart, A.D. G reentree, D.N. Jamieson and S. Prawer, Diamond And Related Materials 16, 11 (2007).

[35] Ion beam lithography using single ions, A. Alves, P. Reichart, R. Siegele, P.N. Johnston and D.N. Jamieson, Nuclear Instruments And Methods B 249, 730 (2006).

[36] 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, R.G. Clark, D.N. Jamieson, C. Yang, C.I. Pakes and S. Prawer, Applied Physics Letters 88, 192101 (2006).

[37] 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, R.G. Clark, C. Yang and D.N. Jamieson, Journal Of Applied Physics 100, 106104 (2006).

[38] Corrosion in artificial defects. II. Chromate reactions, S.A Furman, F.H Scholes, A.E. Hughes, D.N. Jamieson, C.M. Macrae and A.M. Glenn, Corrosion Science 48, 1827 (2006).

[39] Critical components for diamond-based quantum coherent devices, A.D. Greentree, P. Olivero, M. Draganski, E. Trajkov, J.R. Rabeau, P. Reichart, B.C. Gibson, S. Rubanov, S.T. Huntington, D.N. Jamieson and S. Prawer, Journal Of Physics: Condensed Matter 18, S825 (2006).

[40] Crack-arresting compression layers produced by ion implantation, V.N. Gurarie, P.H. Otsuka, D.N. Jamieson and S. Prawer, Nuclear Instruments And Methods In Physics Research B 242, 421 (2006).

[41] The role of charge trapping at grain boundaries on charge transport in polycrystalline chemical vapour deposited diamond based detectors, S.M. Hearne, E. Trajkov, D.N. Jamieson, J.E. Butler and S. Prawer, Journal Of Applied Physics 99, 113703 (2006).

[42] Coulomb blockade in a nanoscale phosphorus-in-silicon island, F.E. Hudson, A.J. Ferguson, C. Yang, D.N. Jamieson, A.S. Dzurak and R.G. Clark, Microelectronic Engineering 83, 1809 (2006).

[43] Quantum effects in ion implanted devices, D.N. Jamieson, V. Chan, F.E. Hudson, S.E. Andresen, C. Yang, T. Hopf, S.M. Hearne, C.I. Pakes, S. Prawer, E. Gauja, A.S. Dzurak and R.G. Clark, Nuclear Instruments And Methods In Physics Research B 249, 221 (2006).

[44] Scanning ion deep level transient spectroscopy: I. Theory, J.S. Laird, C. Jagadish, D.N. Jamieson and G.J.F. Legge, Journal Of Physics D: Applied Physics 39, 1342 (2006).

[45] Scanning ion deep level transient spectroscopy: II. Ion irradiated Au-Si Schottky junctions, J.S. Laird, C. Jagadish, D.N. Jamieson and G.J.F. Legge, Journal Of Physics D: Applied Physics 39, 1352 (2006).

[46] Demonstration of a silicon-based quantum cellular automata cell, M. Mitic, M.C. Cassidy, K.D. Petersson, R.P. Starrett, E. Gauja, R. Brenner, R.G. Clark, A.S. Dzurak, C. Yang and D.N. Jamieson, Applied Physics Letters 89, 13503 (2006).

[47] Characterization of three-dimensional microstructures in single-crystal diamond, P. Olivero, S. Rubanov, P. Reichart, B.C. Gibson, S.T. Huntington, J.R. Rabeau, A.D. Greentree, J. Salzman, D. Moore, D.N. Jamieson and S. Prawer, Diamond And Related Materials 15, 1614 (2006).

[48] Implantation of labelled single nitrogen vacancy centers in diamond using 15N, J.R. Rabeau, P. Reichart, G. Tamanyan, D.N. Jamieson, S. Prawer, F. Jelezko, T. Gaebel, I. Popa, M. Domhan and J. Wrachtrup, Applied Physics Letters 88, 23113 (2006).

[49] 3D-Hydrogen analysis of ferromagnetic microstructures in proton irradiated graphite, P. Reichart, D. Spemann, A. Hauptner, A. Bergmaier, V. Hable, R. Hertenberger, C. Greubel, A. Setzer, G. Dollinger, D.N. Jamieson, T. Butz and P. Esquinazi, Nuclear Instruments And Methods In Physics Research Section B: Beam Interactions With Materials And Atoms 249, 286 (2006).

[50] Coherent population trapping in diamond N-V centers at zero magnetic field, C. Santori, D. Fattal, S.M. Spillane, M. Fiorentino, R.G. Beausoleil, A.D. Greentree, P. Olivero, M. Draganski, J.R. Rabeau, P. Reichart, B.C. Gibson, S. Rubanov, D.N. Jamieson and S. Prawer, Optics Express 14, 7986 (2006).

[51] Ion transmission through nano-apertures, M.L. Taylor, R.D. Franich, A. Alves, P. Reichart, C. Yang, D.N. Jamieson and P.N. Johnston, Nuclear Instruments And Methods B 249, 752 (2006).

[52] P2 dimer implantation in silicon: A molecular dynamics study, H.F. Wilson, S. Prawer, P.G. Spizzirri, D.N. Jamieson, N. Stavrias and D.R. McKenzie, Nuclear Instruments And Methods In Physics Research B: Beam Interactions With Materials And Atoms 251, 395 (2006).

[53] Combined nuclear microprobe and TEM study of corrosion pit nucleation by intermetallics in aerospace aluminium alloys, A.P. Boag, D.G. McCulloch, D.N. Jamieson, S.M. Hearne, A.E. Hughes, C.G. Ryan and S.K. Toh, Nuclear Instruments & Methods In Physics Research Section B : Beam Interactions With Materials And Atoms 231, 457 (2005).

[54] Analysis and geometric optimization of single electron transistors for read-out in solid-state quantum computing, V.I. Conrad, A.D. Greentree, D.N. Jamieson and L.C.L. Hollenberg, Journal Of Computational And Theoretical Nanoscience 2, 214 (2005).

[55] Macrochannelling: Characterisation of nano-structures by ion beam analysis, L. Dijk, B. Murat, A. Alves, P. N. Johnston, T.J. Davis, P. Reichart and D.N. Jamieson, Nuclear Instruments And Methods In Physics Research B 231, 130 (2005).

[56] Raman-based analysis of implantation-induced expansion and stresses in sapphire crystals, V.N. Gurarie, P.H. Otsuka, D.N. Jamieson and S. Prawer, Journal Of Materials Research 20, 1131 (2005).

[57] Ion beam induced charge and numerical modeling study of novel detector devices for single ion implantation, T. Hopf , D.N. Jamieson, S.M. Hearne, C. Yang, C.I. Pakes, A.S. Dzurak, E. Gauja and R.G. Clark, Nuclear Instruments And Methods In Physics Research Section B 231, 463 (2005).

[58] Controlled shallow single-ion implantation in silicon using an active substrate for sub-20-keV ions, D.N. Jamieson, C. Yang, T. Hopf, S.M. Hearne, C.I. Pakes, S. Prawer, M. Mitic, E. Gauja, S.E. Andresen, F.E. Hudson, A.S. Dzurak and R.G. Clark, Applied Physics Letters 86, 202101 (2005).

[59] Thin-film resists for registration of single ion impacts, V. Millar, C.I. Pakes, S. Prawer, B. Rout and D.N. Jamieson, Nanotechnology 16, 823 (2005).

[60] 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).

[61] Ion beam assisted lift-off technique for three-dimensional micromachining of free standing single-crystal diamond, P. Olivero, S. Rubanov, P. Reichart, B. Gibson, S. Huntington, J. Rabeau, A. D. Greentree, J. Salzman, D. Moore, D.N. Jamieson and S. Prawer, Advanced Materials 17, 2427 (2005).

[62] Advances in dynamic analysis PIXE imaging: Correction for spatial variation of pile-up components, C.G. Ryan, E. Van Achterbergh and D.N. Jamieson, Nuclear Instruments & Methods In Physics Research Section B : Beam Interactions With Materials And Atoms 231, 162 (2005).

[63] Conducting Ni nanoparticles in an ion-modified polymer, J.Y. Sze, C.I. Pakes, B.K. Tay, D.N. Jamieson and S. Prawer, Journal Of Applied Physics 98, 66101 (2005).

[64] The retro-cut process: precision reshaping of magnetic quadrupole lens profiles to improve field strength, R. Szymanski, D.N. Jamieson, B. Rout and R. Brenner, Nuclear Instruments And Methods In Physics Research Section B : Beam Interactions With Materials And Atoms 231, 49 (2005).

[65] Nanoscale electrical characterization of trap-assisted quasi-breakdown fluctuations in SiO2, C.I. Pakes, S. Ramelow, S. Prawer and D.N. Jamieson, Applied Physics Letters 84, 3142 (2004).

[66] Manipulation of single magnetic protein particles using atomic force microscopy, C.I. Pakes, D.P. George, S. Ramelow, A. Cimmino, D.N. Jamieson and S. Prawer, Journal Of Magnetism And Magnetic Materials 272, E1231 (2004).

[67] High temperature processing of TiO2 thin films for application in silicon solar cells, B.S. Richards, S.R. Richards, M.B. Boreland and D.N. Jamieson, Journal Of Vacuum Science And Technology A-vacuum Surfaces & Films 22, 339 (2004).

[68] 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).

[69] Oxide formation on aluminium alloys in boiling deionised water and NaCl CeCl3 and CrCl3, J.D. Gorman, A.E. Hughes, D.N. Jamieson and P.J.K Patterson, Corrosion Science 45, 1103 (2003).

[70] Long period gratings in multimode fiber fabricated with high energy ion implantation, K.J. Grant, A. Roberts, D.N. Jamieson, C. Cher and B. Rout, Fibre And Integrated Optics 22, 225 (2003).

[71] TCAD modelling of ion beam induced charge collection in silicon Schottky barrier devices, S.M. Hearne, D.N. Jamieson, C.Yang and A.S. Dzurak, Nuclear Instruments And Methods In Physics Research B 210, 181 (2003).

[72] Temperature dependent emptying of grain-boundary charge-traps in CVD diamond, S.M. Hearne, D.N. Jamieson, E. Trajkov, S. Prawer and J.E. Butler, Applied Physics Letters 84, 4493 (2003).

[73] A comparative study of the radiation hardness of silicon carbide using light ions, K.K. Lee, T. Ohshima, A. Saint, T. Kamiya, D.N. Jamieson, H. Itoh, Nuclear Instruments And Methods In Physics Research B 210, 489 (2003).

[74] Radiation damage on 6H-SiC Schottky diodes, T. Nishijima, S.M. Hearne, D.N. Jamieson, T. Ohshima, K.K. Lee and H. Itoh, Nuclear Instruments And Methods In Physics Research B 210, 196 (2003).

[75] Technology computer-aided design modelling of single-atom doping for fabrication of buried nanostructures, C.I. Pakes, D.P. George, C.J. Yang, D.N. Jamieson, A.S. Dzurak and R.G. Clark, Nanotechnology 14, 157 (2003).

[76] Modelling single-electron-transistor-based readout in the Kane solid-state quantum computer, C.I. Pakes, V. Conrad, J.C. Ang, F. Green, A.S. Dzurak, L.C.L. Hollenberg, D.N. Jamieson and R.G. Clark, Nanotechnology 14, 161 (2003).

[77] Phase correlations of elemental maps using nuclear microscopy, B. Rout, D.N. Jamieson, T. Hopf and C.G. Ryan, Nuclear Instruments And Methods In Physics Research Section B 210, 129 (2003).

[78] Surface Damage In Silicon After 30 Kev Ga Fib Fabrication, S. Rubanov, P.R. Munroe, S. Prawer and D.N. Jamieson, Microscopy And Microanalysis 878CD, NULL (2003).

[79] The Amsterdam Quintuplet Nuclear Microprobe, M.J.J. Van den Putte, B. Rout, R. Szymanski, D.N. Jamieson and J.F.J. Van den Brand, Nuclear Instruments And Methods In Physics Research Section B 210, 21 (2003).

[80] Electron exchange coupling for single donor solid-state spin qubits, C.J. Wellard, L.C.L. Hollenberg, F. Parisoli, L. Kettle, H.S. Goan, J. McIntosh and D.N. Jamieson, Physical Review B 68, 195209 (2003).

[81] IBIC Characterisation of Novel Detectors for Single Atom Doping of Quantum Computer Devices, C.J. Yang, D.N. Jamieson, C.I. Pakes, D.P. George, S.M. Hearne, A.S. Dzurak, E.Gauja, F.E. Stanley and R.G. Clark, Nuclear Instruments & Methods In Physics Research Section 210, 186 (2003).

[82] Single phosphorous ion implantation into prefabricated nanometre cells of silicon devices for quantum bit fabrication, C.J. Yang, D.N. Jamieson, C.I. Pakes, S. Prawer, A.S. Dzurak, F.E. Stanley, P. Spizziri, L. Macks, E. Gauja and R.G. Clark, The Japanese Journal Of Applied Physics 42, 4124 (2003).

[83] The use of solenoid lenses in a two-stage nuclear microprobe probe-forming system, M.B.H. Breese, D.N. Jamieson and B.L. Doyle, Nuclear Instruments And Methods In Physics Research Section B: Beam Interactions With Materials And Atoms 188, 261 (2002).

[84] Toward a silicon-based nuclear-spin quantum computer, R.G. Clark, P.C. Hammel, A.S. Dzurak, A.R. Hamilton, L.C.L. Hollenberg, D.N. Jamieson and C.I. Pakes, Los Alamos Science 27, 284 (2002).

[85] The effect of crystal orientation on thermal shock-induced fracture and properties of ion implanted sapphire, V.N. Gurarie, P.H. Otsuka, D.N. Jamieson, J.S. Williams and M. Conway, Nuclear Instruments And Methods In Physics Research Section B: Beam Interactions With Materials And Atoms 190, 751 (2002).

[86] High ion-beam induced electron yields from polycrystalline diamond, D.I. Hoxley, D.N. Jamieson, S. Prawer, V. Richter and R. Kalis, Nuclear Instruments And Methods In Physics Research Section B: Beam Interactions With Materials And Atoms 190, 151 (2002).

[87] The new Melbourne nuclear microprobe system, D.N. Jamieson, B. Rout, R. Szymanski, P. Spizzirri, A. Sakellariou, W. Belcher and C.G. Ryan, Nuclear Instruments And Methods In Physics Research Section B: Beam Interactions With Materials And Atoms 190, 54 (2002).

[88] Nanofabrication processes for single-ion implantation of silicon quantum computer devices, R.P. McKinnon, F.E. Stanley, E. Gauja, L.D. Macks, M. Mitic, V. Chan, K. Peceros, T.M. Buehler, A.S. Dzurak, R.G. Clark, C. Yang, D.N. Jamieson and S.D. Prawer, Smart Materials And Structures 11, 735 (2002).

[89] Nanoscale fabrication using single-ion impacts, V. Millar, C.I. Pakes, A. Cimmino, D. Brett, D.N. Jamieson, S. Prawer, C.J. Yang, B. Rout, R.P. McKinnon, A.S. Dzurak and R.G. Clark, Smart Materials And Structures 11, 686 (2002).

[90] Modelling of electrostatic gate operations in the Kane solid state quantum computer, C.I. Pakes, C.J. Wellard, D.N. Jamieson, L.C.L. Hollenberg, S. Prawer, A.S. Dzurak, A.R. Hamilton and R.G. Clark, Microelectronics Journal 33, 1053 (2002).

[91] Nuclear microprobe analysis of U-doped (Bi,Pb)2Sr2Ca2Cu3Oy/Ag superconducting tapes, B. Rout, J. Hendriks, D.N. Jamieson, R. Szymanski, D. Milliken and S.X. Dou, Nuclear Instruments And Methods In Physics Research Section B: Beam Interactions With Materials And Atoms 190, 357 (2002).

[92] Filiform corrosion imaged beneath protection layers on Al alloys, R. Szymanski, D.N. Jamieson, A.E. Hughes, A. Mol, S. van der Zwaag and C.G. Ryan, Nuclear Instruments And Methods In Physics Research Section B: Beam Interactions With Materials And Atoms 190, 365 (2002).

[93] Ion beam induced charge characterisation of particle detectors, C.J. Yang, D.N. Jamieson, S.M. Hearne, C.I. Pakes, B. Rout, E. Gauja, A.S. Dzurak and R.G. Clark, Nuclear Instruments & Methods In Physics Research Section B: Beam Interactions With Materials & Atoms 190, 212 (2002).

[94] Imaging Ni segregation in synthetic diamond using ionoluminescence (IL) and particle induced X-ray emission (PIXE), A.A. Bettiol, C.G. Ryan, D.N. Jamieson and S. Prawer, Nuclear Instruments And Methods In Physics Research B 181, 225 (2001).

[95] Parallel beams from nuclear microprobe lens systems, J. den Besten, P. Spizzirri, D.N. Jamieson and A.D. Dymnikov, Nuclear Instruments And Methods In Physics Research B 181, 78 (2001).

[96] 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).

[97] Ion beam modification of thermal stress resistance of MgO single crystals with different crystallographic faces, V.N. Gurarie, P.H. Otsuka, J.S. Williams, M.J. Conway and D.N. Jamieson, Nuclear Instruments And Methods In Physics Research B 178, 138 (2001).

[98] Focused microprobes of high energy ions - versatile analytical probes for surfaces interfaces and devices, D.N. Jamieson, A.A. Bettiol and C.Y. Yang, Applied Surface Science 169, 134 (2001).

[99] A role for ion implantation in quantum computing, D.N. Jamieson, S. Prawer, I. Andrienko, D.A. Brett and V. Millar, Nuclear Instruments And Methods In Physics Research B 175, 744 (2001).

[100] New generation nuclear microprobe systems, D.N. Jamieson, Nuclear Instruments And Methods In Physics Research B 181, 1 (2001).

[101] Ion beam induced charge gate rupture of oxide on 6H-SiC, K.K. Lee, T. Nishijima, T. Ohshima and D.N. Jamieson, Nuclear Instruments And Methods In Physics Research B 181, 324 (2001).

[102] Nanofabrication processes for single-ion implantation of silicon quantum computer devices, R.P. McKinnon, F.E. Stanley, T.M. Buehler, E. Gauja, K. Peceros, L.D. Macks, M. Mitic, V. Chan, A.S. Dzurak, R.G. Clark, C. Yang, D.N. Jamieson and S. Prawer, Biomems And Smart Nanostructures 4590, 310 (2001).

[103] Nanoscale fabrication using single ion impacts, V. Millar, C.I. Pakes, A. Cimmino, D. Brett, D.N. Jamieson, S. Prawer, C. Yang, B. Rout, R.P. McKinnon, A.S. Dzurak and R.G. Clark, Biomems And Smart Nanostructures 4590, 173 (2001).

[104] Structural characterisation of Ti:Sapphire regions formed by localised high energy implantation of Ti and O ions, L.D. Morpeth, J.C. McCallum and D.N. Jamieson, Nuclear Instruments And Methods In Physics Research B 181, 372 (2001).

[105] Carbon diffusion and nanocrystalline diamond formation in carbon ion-implanted oxides studied by nuclear elastic scattering, J.O. Orwa, D.N. Jamieson, S. Prawer and J.C. McCallum, Nuclear Instruments And Methods In Physics Research B 175, 554 (2001).

[106] Diamond nanocrystals formed by direct implantation of fused silica with carbon, J.O. Orwa, S. Prawer, D.N. Jamieson, J.L. Peng, J.C. McCallum, K.W. Nugent, Y.J. Li, L.A. Bursill and S.P. Withrow, Journal Of Applied Physics 90, 3007 (2001).

[107] Modelling of electrostatic gate operations in the Kane solid state quantum computer, C.I. Pakes, C.J. Wellard, D.N. Jamieson, L.C.L. Hollenberg, S. Prawer, A.S. Dzurak, A.R. Hamilton and R.G. Clark, Biomems And Smart Nanostructures 4590, 70 (2001).

[108] MeV ion implantation doping of diamond, S. Prawer, D.N. Jamieson, K.W. Nugent, R. Walker, C. Uzan-Saguy and R. Kalish, Materials Research Society 647, O4.3.1 (2001).

[109] The new CSIRO-GEMOC nuclear microprobe: First results performance and recent applications, C.G. Ryan, D.N. Jamieson, W.L. Griffin, G. Cripps and R. Szymanski, Nuclear Instruments And Methods In Physics Research B 181, 12 (2001).

[110] Dead time corrected and charge normalised maps generated with the MicroDas fast data acquisition system, A. Sakellariou, G.R. Moloney and D.N. Jamieson, Nuclear Instruments And Methods In Physics Research B 181, 116 (2001).

[111] Three-dimensional ion micro-tomography, A. Sakellariou, D.N. Jamieson and G.J.F. Legge, Nuclear Instruments And Methods In Physics Research B 181, 211 (2001).

[112] Nuclear microprobe and Raman investigation of the chemistry of the shell of the pacific oyster, Crassostrea gigas, A. Markwitz, R.W. Gauldie, J. Pithie, S.K. Sharma and D.N. Jamieson, International Journal Of Pixe 9, 345 (2000).

[113] Size dependence of structural stability in nanocrystalline diamond, S. Prawer, J.L. Peng, J.O. Orwa, J.C. McCallum, D.N. Jamieson and L.A. Bursill, Physical Review B (rapid Communications) 62, 16360 (2000).

[114] The Raman spectrum of nanocrystalline diamond, S. Prawer, K.W. Nugent, D.N. Jamieson, J.O. Orwa, L.A. Bursill and J.L. Peng, Chemical Physics Letters 332, 93 (2000).

Book Citations


[1] Construction of a silicon-based solid state quantum computer in EXPERIMENTAL IMPLEMENTATION OF QUANTUM COMPUTATION,
A.S. Dzurak, R.G. Clark, A.R. Hamilton, D.N. Jamieson, G.J. Milburn, M. Neilsen, S. Prawer, H. Rubinsztein-Dunlop and M.Y. Simmons,
(2001).