{"id":69,"date":"2017-01-25T12:57:50","date_gmt":"2017-01-25T01:57:50","guid":{"rendered":"http:\/\/blogs.unsw.edu.au\/dzuraklab\/?page_id=69"},"modified":"2017-12-05T09:17:36","modified_gmt":"2017-12-04T22:17:36","slug":"publications","status":"publish","type":"page","link":"https:\/\/blogs.unsw.edu.au\/dzuraklab\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"

Integrated silicon qubit platform with single-spin addressability, exchange control and robust single-shot singlet-triplet readout <\/strong>
\nM.A. Fogarty, K.W. Chan, B. Hensen, W. Huang, T. Tanttu, C.H. Yang, A. Laucht, M. Veldhorst, F.E. Hudson, K.M. Itoh, D. Culcer, A. Morello, A.S. Dzurak
\nArXiv:<\/em> 1708.03445 (2017)
\n(ArXiv)<\/a><\/p>\n

Thermal-Error Regime in High-Accuracy Gigahertz Single-Electron Pumping<\/strong>
\nR. Zhao, A. Rossi, S.\u2009P. Giblin, J.\u2009D. Fletcher, F.\u2009E. Hudson, M. M\u00f6tt\u00f6nen, M. Kataoka, and A.\u2009S. Dzurak
\nPhysical Review Applied<\/em> 8<\/strong>, 044021 (2017)
\n(Online)<\/a><\/p>\n

Interface induced spin-orbit interaction in silicon quantum dots and prospects for scalability <\/strong>
\nRifat Ferdous, Kok W. Chan, Menno Veldhorst, J.C.C. Hwang, C. H. Yang, Gerhard Klimeck, Andrea Morello, Andrew S. Dzurak, Rajib Rahman
\nArXiv:<\/em> 1703.03840 (2017)
\n(ArXiv)<\/a><\/p>\n

A dressed spin qubit in silicon<\/strong>
\nA.\u00a0Laucht, R.\u00a0Kalra, S.\u00a0Simmons, J.P. Dehollain, J.T. Muhonen, F.A. Mohiyaddin, S. Freer, F.E. Hudson, K.M. Itoh, D.N. Jamieson, J.C. McCallum, A.S. Dzurak,\u00a0A. Morello
\nNature Nanotechnology<\/em> 12<\/strong>, 61\u00a0(2017)
\n(Online)<\/a><\/p>\n

Valley splitting of single-electron Si MOS quantum dots<\/strong>
\nJ.K. Gamble, P. Harvey-Collard, N.T. Jacobson, A.D. Baczewski, E. Nielsen, L. Maurer, I. Monta\u00f1o, M. Rudolph, M.S. Carroll, C.H. Yang, A. Rossi, A.S. Dzurak, R.P. Muller
\nApplied Physics Letters <\/em>109<\/strong>, 253101 (2016)
\n(Online)<\/a><\/p>\n

Three-waveform bidirectional pumping of single electrons with a silicon quantum dot<\/strong>
\nT. Tanttu, A. Rossi, K.Y. Tan, A.\u00a0M\u00e4kinen, K.W. Chan, A.S. Dzurak, M. M\u00f6tt\u00f6nen
\nScientific Reports<\/em> 6<\/strong>, 36381 (2016)
\n(Online)<\/a><\/p>\n

Breaking the rotating wave approximation for a strongly driven dressed single-electron spin<\/strong>
\nA. Laucht, S. Simmons, R. Kalra, G. Tosi, J.P. Dehollain, J.T. Muhonen, S. Freer, F.E. Hudson, K.M. Itoh, D.N. Jamieson, J.C. McCallum, A.S. Dzurak,\u00a0A. Morello
\nPhysical\u00a0Review B<\/em> 94<\/strong>, 161302(R) (2016)
\n(Online)<\/a><\/p>\n

Optimization of a solid-state electron spin qubit using gate set tomography<\/strong>
\nJ.P. Dehollain, J.T. Muhonen, R. Blume-Kohout, K.M. Rudinger, J.K.\u00a0Gamble, E. Nielsen, A. Laucht, S. Simmons, R. Kalra, A.S. Dzurak, A. Morello
\nNew Journal of Physics<\/em> 18<\/strong>, 103018 (2016)
\n(Online)<\/a><\/p>\n

Silicon CMOS architecture for a spin-based quantum computer<\/strong>
\nM. Veldhorst, H.G.J. Eenink, C.H. Yang,\u00a0A.S. Dzurak
\nArXiv:<\/em> 1609.09700 (2016)
\n(ArXiv)<\/a><\/p>\n

Impact of g-factors and valleys on spin qubits in a silicon double quantum dot<\/strong>
\nJ.C.C. Hwang, C.H. Yang, M. Veldhorst, N. Hendrickx, M.A. Fogarty, W. Huang, F.E. Hudson, A. Morello,\u00a0A.S. Dzurak
\nPhysical Review B<\/em> 96<\/strong>, 045302 (2017)
\n(Online)<\/a><\/p>\n

A logical qubit in a linear array of semiconductor quantum dots<\/strong>
\nC. Jones, M.F. Gyure, T.D. Ladd, M.A. Fogarty, A. Morello, A.S. Dzurak
\nArXiv:<\/em> 1608.06335 (2016)
\n(ArXiv)<\/a><\/p>\n

Bell’s inequality violation with spins in silicon<\/strong>
\nJ.P. Dehollain, S.Simmons, J.T. Muhonen, R. Kalra, A. Laucht, F. Hudson, K.M. Itoh, D.N. Jamieson, J.C. McCallum, A.S. Dzurak, A. Morello
\nNature Nanotechnology<\/em> 11<\/strong>, 242 (2016)
\n(Online)<\/a><\/p>\n

A two-qubit logic gate in silicon<\/strong>
\nM. Veldhorst, C.H. Yang, J.C.C. Hwang, W. Huang, J.P. Dehollain, J.T. Muhonen, S. Simmons, A. Laucht, F.E. Hudson, K.M. Itoh, A. Morello, A.S. Dzurak
\nNature<\/em> 526<\/strong>, 410 (2015)
\n(Online)<\/a><\/p>\n

Pauli Spin Blockade of Heavy Holes in a Silicon Double Quantum Dot<\/strong>
\nR. Li, F.E. Hudson, A.S. Dzurak, A.R. Hamilton
\nNano Letters<\/em> 15<\/strong>, 7314 (2015)
\n(Online)<\/a><\/p>\n

Non-exponential Fidelity Decay in Randomized Benchmarking with Low-Frequency Noise<\/strong>
\nM.A. Fogarty, M. Veldhorst, R. Harper, C.H. Yang, S.D. Bartlett, S.T. Flammia, A.S. Dzurak
\nPhysical Review A<\/em> 92<\/strong>, 022326 (2015)
\n(Online)<\/a><\/p>\n

Spin-orbit coupling and operation of multivalley spin qubits<\/strong>
\nM. Veldhorst, R. Ruskov, C.H. Yang, J.C.C. Hwang, F.E. Hudson, M.E. Flatt\u00e9, C. Tahan, K.M. Itoh, A. Morello, A.S. Dzurak
\nPhysical Review B<\/em> 92<\/strong>, 201401 (2015)
\n(Online)<\/a><\/p>\n

Electron counting in a silicon single-electron pump<\/strong>
\nT. Tanttu, A. Rossi, K.Y. Tan, K-E. Huhtinen, K.W. Chan, M. M\u00f6tt\u00f6nen, A.S. Dzurak
\nNew Journal of Physics<\/em> 17<\/strong>, 103030 (2015)
\n(Online)<\/a><\/p>\n

A planar Al-Si Schottky barrier metal\u2013oxide\u2013semiconductor field effect transistor operated at cryogenic temperatures<\/strong>
\nW.E. Purches, A. Rossi, R. Zhao, S. Kafanov, T.L. Duty, A.S. Dzurak, S. Rogge, G.C. Tettamanzi
\nApplied Physics Letters<\/em> 107<\/strong>, 063503 (2015)
\n(Online)<\/a><\/p>\n

Silicon metal-oxide-semiconductor quantum dots for single-electron pumping<\/strong>
\nA. Rossi, T. Tanttu, F.E. Hudson, Y. Sun, M. M\u00f6tt\u00f6nen,\u00a0A.S. Dzurak
\nJournal Of Visualized Experiments<\/em> 100<\/strong>, e52852 (2015)
\n(Online)<\/a><\/p>\n

Electrically controlling single-spin qubits in a continuous microwave field<\/strong>
\nA. 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, A. Morello
\nScience Advances<\/em> 1<\/strong>, e1500022 (2015)
\n(Online)<\/a><\/p>\n

Quantifying the quantum gate fidelity of single-atom spin qubits in silicon by randomized benchmarking<\/strong>
\nJ.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, A. Morello
\nJournal Of Physics: Condensed Matter<\/em> 27<\/strong>, 154205 (2015)
\n(Online)<\/a><\/p>\n

Single atom devices by ion implantation<\/strong>
\nJ. 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, D.N. Jamieson
\nJournal Of Physics: Condensed Matter<\/em> 27<\/strong>, 154204 (2015)
\n(Online)<\/a><\/p>\n

An addressable quantum dot qubit with fault-tolerant control-fidelity<\/strong>
\nM. Veldhorst, J.C.C. Hwang, C.H. Yang, A.W. Leenstra, B. de Ronde, J.P. Dehollain, J.T. Muhonen, F.E. Hudson, K.M. Itoh, A. Morello, A.S. Dzurak
\nNature Nanotechnology<\/em> 9<\/strong>, 981 (2014)
\n(Online)<\/a><\/p>\n

Charge state hysteresis in semiconductor quantum dots<\/strong>
\nC.H. Yang, A. Rossi, N.S. Lai, R. Leon, W.H. Lim, A.S. Dzurak
\nApplied Physics Letters<\/em> 105<\/strong>, 183505 (2014)
\n(Online)<\/a><\/p>\n

Storing quantum information for 30 seconds in a nanoelectronic device<\/strong>
\nJ.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
\nNature Nanotechnology<\/em> 9<\/strong>, 986 (2014)
\n(Online)<\/a><\/p>\n

Coherent control of a single 29Si nuclear spin qubit<\/strong>
\nJ.J. Pla, F.A. Mohiyaddin, K.Y. Tan, J.P. Dehollain, R. Rahman, G. Klimeck, D.N. Jamieson, A.S. Dzurak and A. Morello
\nPhysical Review Letters<\/em> 113<\/strong>, 246801 (2014)
\n(Online)<\/a><\/p>\n

An accurate single-electron pump based on a highly tunable silicon quantum dot<\/strong>
\nA. Rossi, T. Tanttu, K.Y. Tan, I. Iisakka, R. Zhao, K.W. Chan, G.C. Tettamanzi, S. Rogge, A.S. Dzurak, M. M\u00f6tt\u00f6nen
\nNano Letters<\/em> 14<\/strong>, 3405 (2014)
\n(Online)<\/a><\/p>\n

Single-shot readout and relaxation of singlet and triplet states in exchange-coupled P31 electron spins in silicon<\/strong>
\nJ.P. Dehollain, J.T. Muhonen, K.Y. Tan, A. Saraiva, D.N. Jamieson, A.S. Dzurak, A. Morello
\nPhysical Review Letters<\/em> 112<\/strong>, 236801 (2014)
\n(Online)<\/a><\/p>\n

Charge offset stability in Si single electron devices with Al gates<\/strong>
\nN.M. Zimmerman, C.H. Yang, N.S. Lai, W.H. Lim,\u00a0A.S. Dzurak
\nNanotechnology<\/em> 25<\/strong>, 405201 (2014)
\n(Online)<\/a><\/p>\n

Sub-nanoampere one-shot single electron transistor readout electrometry below 10 Kelvin<\/strong>
\nK. Das, T. Lehmann,\u00a0A.S. Dzurak
\nIEEE Transactions On Circuits And Systems<\/em> 61<\/strong>, 10 (2014)
\n(Online)<\/a><\/p>\n

High-fidelity adiabatic inversion of a P-31 electron spin qubit in natural silicon<\/strong>
\nA. Laucht, R. Kalra, J.T. Muhonen, J.P. Dehollain, F.A. Mohiyaddin, F.E. Hudson, J.C. McCallum, D.N. Jamieson, A.S. Dzurak,\u00a0A. Morello
\nApplied Physics Letters<\/em> 104<\/strong>, 092115 (2014)
\n(Online)<\/a><\/p>\n

High-fidelity readout and control of a nuclear spin qubit in silicon<\/strong>
\nJ.J. Pla, K.Y. Tan, J.P. Dehollain, W.H. Lim, J.J.L. Morton, F.A. Zwanenburg, D.N. Jamieson, A.S. Dzurak,\u00a0A. Morello
\nNature<\/em> 496<\/strong>, 334 (2013)
\n(Online)<\/a><\/p>\n

Quantum spintronics: Engineering and manipulating atom-like spins in semiconductors<\/strong>
\nD.D. Awschalom, L.C. Bassett, A.S. Dzurak, E.L. Hu,\u00a0J.R. Petta
\nScience<\/em> 339<\/strong>, 1174 (2013)
\n(Online)<\/a><\/p>\n

Spin-valley lifetimes in a silicon quantum dot with tunable valley splitting<\/strong>
\nC.H. Yang, A. Rossi, R. Ruskov, N.S. Lai, F.A. Mohiyaddin, S. Lee, C. Tahan, G. Klimeck, A. Morello, A.S. Dzurak
\nNature Communications<\/em> 4<\/strong>, 2069 (2013)
\n(Online)<\/a><\/p>\n

Silicon quantum electronics<\/strong>
\nF.A. Zwanenburg, A.S. Dzurak, A. Morello, M.Y. Simmons, L.C.L. Hollenberg, G. Klimeck, S. Rogge, S.N. Coppersmith,\u00a0M.A. Eriksson
\nReviews of Modern Physics<\/em> 85<\/strong>, 961 (2013)
\n(Online)<\/a><\/p>\n

Coulomb interaction and valley-orbit coupling in Si quantum dots<\/strong>
\nL. Jiang, C.H. Yang, Z. Pan, A. Rossi, A.S. Dzurak, D. Culcer
\nPhysical Review B<\/em> 88<\/strong>, 085311 (2013)
\n(Online)<\/a><\/p>\n

Noninvasive spatial metrology of single-atom devices<\/strong>
\nF.A. Mohiyaddin, R. Rahman, R. Kalra, G. Klimeck, L.C.L. Hollenberg, J.J. Pla, A.S. Dzurak and A. Morello
\nNano Letters<\/em> 13<\/strong>, 1903 (2013)
\n(Online)<\/a><\/p>\n

Single hole transport in a silicon metal-oxide-semiconductor quantum dot<\/strong>
\nR. Li, F.E. Hudson, A.S. Dzurak and A. R. Hamilton
\nApplied Physics Letters<\/em> 103<\/strong>, 163508 (2013)
\n(Online)<\/a><\/p>\n

Printed circuit board metal powder filters for low electron temperatures<\/strong>
\nF. Mueller, R.N. Schouten, M. Brauns, T. Gang, W.H. Lim, N.S. Lai, A.S. Dzurak, W.G. van der Wiel,\u00a0F.A. Zwanenburg
\nReview of Scientific Instruments<\/em> 84<\/strong>, 044706 (2013)
\n(Online)<\/a><\/p>\n

Nanoscale broadband transmission lines for spin qubit control<\/strong>
\nJ.P. Dehollain, J.J. Pla, E. Siew, K.Y. Tan A.S. Dzurak,\u00a0A. Morello
\nNanotechnology<\/em> 24<\/strong>, (2013)
\n(Online)<\/a><\/p>\n

A single-atom electron spin qubit in silicon<\/strong>
\nJ.J. Pla, K.Y. Tan, J.P. Dehollain, W-H. Lim, J.J.L. Morton, D.N. Jamieson, A.S. Dzurak,\u00a0A. Morello
\nNature<\/em> 489<\/strong>, 541 (2012)
\n(Online)<\/a><\/p>\n

Orbital and valley state spectra of a few-electron silicon quantum dot<\/strong>
\nC.H. Yang, W.H. Lim, N.S. Lai, A. Rossi, A. Morello, A.S. Dzurak
\nPhysical Review B<\/em> 86<\/strong>, 115319 (2012)
\n(Online)<\/a><\/p>\n

Pauli Spin Blockade in a Highly Tunable Silicon Double Quantum Dot<\/strong>
\nN.S. Lai, W.H. Lim, C.H. Yang, F.A. Zwanenburg, W.A. Coish, F. Qassemi, A. Morello, A.S. Dzurak
\nScientific Reports<\/em> 1<\/strong>, 110 (2011)
\n(Online)<\/a><\/p>\n

Dynamically controlled charge sensing of a few-electron silicon quantum dot<\/strong>
\nC.H. Yang, W.H. Lim, F.A. Zwanenburg, A.S. Dzurak
\nAIP Advances<\/em> 1<\/strong>, 042111 (2011)
\n(Online)<\/a><\/p>\n

Single-electron shuttle based on a silicon quantum dot<\/strong>
\nK.W. Chan, M. Mottonen, A. Kemppinen, N.S. Lai, K.Y. Tan, W.H. Lim, A.S. Dzurak
\nApplied Physics Letters<\/em> 98<\/strong>, 212103 (2011)
\n(Online)<\/a><\/p>\n

Spin filling of valley\u2013orbit states in a silicon quantum dot<\/strong>
\nW.H. Lim, C.H. Yang, F.A. Zwanenburg, A.S. Dzurak
\nNanotechnology<\/em> 22<\/strong>, 335704 (2011)
\n(Online)<\/a><\/p>\n

Single-shot readout of an electron spin in silicon<\/strong>
\nA. Morello, J.J. Pla, F.A. Zwanenburg, K.W. Chan, H. Huebl, M. M\u00f6tt\u00f6nen, C.D. Nugroho, C. Yang, J.A. van Donkelaar, A.D.C. Alves, D.N. Jamieson, C.C. Escott, L.C.L. Hollenberg, R.G. Clark,\u00a0A.S. Dzurak
\nNature<\/em> 467<\/strong>, 687 (2010)
\n(Online)<\/a><\/p>\n

Overlapping-gate architecture for silicon Hall bar MOSFET devices in the low electron density regime<\/strong>
\nL.H. Willems van Beveren, K.Y. Tan, N.S. Lai, A.S. Dzurak,\u00a0A.R. Hamilton
\nApplied Physics Letters<\/em> 97<\/strong>, 152102 (2010)
\n(Online)<\/a><\/p>\n

Electron Tunnel rates in a donor-silicon single electron transistor hybrid<\/strong>
\nH. Huebl, C. Nugroho, A. Morello, C. Escott, M. Eriksson, C. Yang, D.N. Jamieson, R.G. Clark,\u00a0A.S. Dzurak
\nPhysical Review B<\/em> 81<\/strong>, 235318 (2010)
\n(Online)<\/a><\/p>\n

Probe and control of the reservoir density of states in single-electron devices<\/strong>
\nM. M\u00f6tt\u00f6nen, 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, A.S. Dzurak
\nPhysical Review B<\/em> 81<\/strong>, 161304(R) (2010)
\n(Online)<\/a><\/p>\n

Characterization of SOI RF-CMOS FETs at ultra-low temperatures for the design of integrated circuits for quantum bit control and readout <\/strong>
\nS.R. Ekanayake, T. Lehmann, A.S. Dzurak, R.G. Clark,\u00a0A. Brawley
\nIEEE Transactions On Electron Devices<\/em> 57<\/strong>, 539 (2010)
\n(Online)<\/a><\/p>\n

Transport spectroscopy of single phosphorus donors in a silicon nanoscale transistor<\/strong>
\nK.Y. Tan, K.W. Chan, M. M\u00f6tt\u00f6nen, A. Morello, C. Yang, J. van Donkelaar, A. Alves, J.-M. Pirkkalainen, D.N. Jamieson, R. G. Clark,\u00a0A.S. Dzurak
\nNano Letters<\/em> 10<\/strong>, 11 (2010)
\n(Online)<\/a><\/p>\n

Observation of the single-electron regime in a highly tunable silicon quantum dot<\/strong>
\nW.H. Lim, F.A. Zwanenburg, H. Huebl, M. M\u00f6tt\u00f6nen, K.W. Chan, A. Morello, A.S. Dzurak
\nApplied Physics Letters<\/em> 95<\/strong>, 242102 (2009)
\n(Online)<\/a><\/p>\n

Architecture for high-sensitivity single-shot readout and control of the electron spin of individual donors in silicon<\/strong>
\nA. Morello, C.C. Escott, H. Huebl, L.H. Willems van Beveren, L.C.L. Hollenberg, D.N. Jamieson, A.S. Dzurak,\u00a0R.G. Clark
\nPhysical Review B (Rapid Communication)<\/em> 80<\/strong>, 81307 (2009).
\n(Online)<\/a><\/p>\n

Development and Fabrication of Cylindrical Silicon-on-Insulator Microdosimeter Arrays<\/strong>
\nN.S. Lai, W.H. Lim, A.L. Ziebell, M.I. Reinhard, A.B. Rosenfeld,\u00a0A.S. Dzurak
\nIEEE Transactions on Nuclear Science<\/em> 56<\/strong>, 1637 (2009)
\n(Online)<\/a><\/p>\n

Electrostatically defined few-electron double quantum dot in silicon<\/strong>
\nW.H. Lim, H. Huebl, L.H. Willems van Beveren, S. Rubanov, P.G. Spizzirri, S.J. Angus, R.G. Clark, A.S. Dzurak
\nApplied Physics Letters<\/em> 94<\/strong>, 173502 (2009)
\n(Online)<\/a><\/p>\n

Observation of the single-electron regime in a highly tunable silicon quantum dot<\/strong>
\nW.H. Lim, F.A. Zwanenburg, H. Huebl, M. Mottonen, K.W. Chan, A. Morello, A.S. Dzurak
\nApplied Physics Letters<\/em> 95<\/strong>, 242102 (2009)
\n(Online)<\/a><\/p>\n

Tissue equivalence correction in Si microdosimetry for protons characteristic of LEO space environment<\/strong>
\nS. Guatelli, M.I. Reinhard, B. Mascialino, D.A. Prokopovich, A.S. Dzurak, M. Zaider, A.B. Rosenfeld
\nIEEE Transactions on Nuclear Science<\/em> 55<\/strong>, 3407 (2008)
\n(Online)<\/a><\/p>\n

A Cylindrical Silicon-on-Insulator Microdosimeter: Charge Collection Characteristics<\/strong>
\nA.L. Ziebell, W.H. Lim, M.I. Reinhard, I. Cornelius, D.A. Prokopovich, R. Siegele, A.S. Dzurak, A.B. Rosenfeld
\nIEEE Transactions on Nuclear Science<\/em> 55<\/strong>, 3414 (2008)
\n(Online)<\/a><\/p>\n

Low-noise detection system for the counted implantation of single ions in silicon<\/strong>
\nT. Hopf, C. Yang, S.M. Hearne, D.N. Jamieson, E. Gauja, S.E. Andresen, A.S. Dzurak
\nIEEE Transactions On Nuclear Science<\/em> 55<\/strong>, 812 (2008)
\n(Online)<\/a><\/p>\n

Gate-controlled charge transfer in Si:P double quantum dots<\/strong>
\nF.E. Hudson, A.J. Ferguson, C.C. Escott, C. Yang, D.N. Jamieson, R.G. Clark, A.S. Dzurak
\nNanotechnology<\/em> 19<\/strong>, 195402 (2008)
\n(Online)<\/a><\/p>\n

Bias spectroscopy and simultaneous single-electron transistor charge state detection of Si:P double dots<\/strong>
\nM. Mitic, K.D. Petersson, M.C. Cassidy, R.P. Starrett, E. Gauja, A.J. Ferguson, C. Yang, D.N. Jamieson, R.G. Clark, A.S. Dzurak
\nNanotechnology<\/em> 19<\/strong>, 265201 (2008)
\n(Online)<\/a><\/p>\n

A silicon radio-frequency single electron transistor<\/strong>
\nS.J. Angus, A.J. Ferguson, A.S. Dzurak, R.G. Clark
\nApplied Physics Letters<\/em> 92<\/strong>, 112103 (2008)
\n(Online)<\/a><\/p>\n

Gate-Defined Quantum Dots in Intrinsic Silicon<\/strong>
\nS.J. Angus, A.J. Ferguson, A.S. Dzurak, R.G. Clark
\nNano Letters<\/em> 7<\/strong>, 2051 (2007)
\n(Online)<\/a><\/p>\n

Charge state control and relaxation in an atomically precise phosphorus doped silicon device<\/strong>
\nS.E. Andresen, R. Brenner, C.J. Wellard, C. Yang, T. Hopf, C.C. Escott, R.G. Clark, A.S. Dzurak, D.N. Jamieson, L.C.L. Hollenberg
\nNano Letters<\/em> 7<\/strong>, 2000 (2007)
\n(Online)<\/a><\/p>\n

Single shot charge detection using a radio-frequency quantum point contact<\/strong>
\nM.C. Cassidy, A.S. Dzurak, R.G. Clark, K.D. Petersson, I. Farrer, D.A. Ritchie, C.G. Smith
\nApplied Physics Letters<\/em> 91<\/strong>, 222104 (2007)
\n(Online)<\/a><\/p>\n

Scaling of ion-implanted Si:P single electron devices<\/strong>
\nC.C. Escott, F.E. Hudson, V.C. Chan, K.D. Petersson, R.G. Clark, A.S. Dzurak
\nNanotechnology<\/em> 18<\/strong>, 235401 (2007)
\n(Online)<\/a><\/p>\n

Demonstration of a silicon-based quantum cellular automata cell<\/strong>
\nM. Mitic, M.C. Cassidy, K.D. Petersson, R.P. Starrett, E. Gauja, R. Brenner, R.G. Clark, A.S. Dzurak, C. Yang,\u00a0D.N. Jamieson
\nApplied Physics Letters <\/em>89<\/strong>, 13503 (2006)
\n(Online)<\/a><\/p>\n

Controlled single electron transfer between Si:P dots<\/strong>
\nT.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,\u00a0S. Prawer
\nApplied Physics Letters <\/em>88<\/strong>, 192101 (2006)
\n(Online)<\/a><\/p>\n

Ion implanted Si:P double dot with gate tunable interdot coupling<\/strong>
\nV.C. Chan, T.M. Buehler, A.J. Ferguson, D.R. McCamey, D.J. Reilly, A.S. Dzurak, R.G. Clark, C. Yang,\u00a0D.N. Jamieson
\nJournal Of Applied Physics <\/em>100<\/strong>, 106104 (2006)
\n(Online)<\/a><\/p>\n

Coulomb blockade in a nanoscale phosphorus-in-silicon island<\/strong>
\nF.E. Hudson, A.J. Ferguson, C. Yang, D.N. Jamieson, A.S. Dzurak,\u00a0R.G. Clark
\nMicroelectronic Engineering<\/em> 83<\/strong>, 1809 (2006)
\n(Online)<\/a><\/p>\n

Quantum effects in ion implanted devices<\/strong>
\nD.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,\u00a0R.G. Clark
\nNuclear Instruments And Methods In Physics Research B<\/em> 249<\/strong>, 221 (2006)
\n(Online)<\/a><\/p>\n

Controlled shallow single-ion implantation in silicon using an active substrate for sub-20-keV ions<\/strong>
\nD.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,\u00a0R.G. Clark
\nApplied Physics Letters <\/em>86<\/strong>, 202101 (2005)
\n(Online)<\/a><\/p>\n

Single-shot readout with the radio frequency single electron transistor in the presence of charge noise<\/strong>
\nT.M. Buehler, D.J. Reilly, R.P. Starrett, A.D. Greentree, A.R. Hamilton, A.S. Dzurak,\u00a0R.G. Clark
\nApplied Physics Letters <\/em>86<\/strong>, 143117 (2005)
\n(Online)<\/a><\/p>\n

Modeling Single Electron Transfer in Si:P Double Quantum Dots<\/strong>
\nK.H. Lee, A.D. Greentree, J.P. Dinale, C.C. Escott, A.S. Dzurak,\u00a0R.G. Clark
\nNanotechnology <\/em>16<\/strong>, 74 (2005)
\n(Online)<\/a><\/p>\n

Ion beam induced charge and numerical modeling study of novel detector devices for single ion implantation<\/strong>
\nT. Hopf , D.N. Jamieson, S.M. Hearne, C. Yang, C.I. Pakes, A.S. Dzurak, E. Gauja,\u00a0R.G. Clark
\nNuclear Instruments And Methods In Physics Research Section B<\/em>\u00a0<\/span>231<\/strong>, 463 (2005)
\n(Online)<\/a><\/p>\n

Single atom Si nanoelectronics using controlled single-ion implantation<\/strong>
\nM. 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,\u00a0R.G. Clark
\nMicroelectronic Engineering<\/em> 78<\/strong>, 279 (2005)
\n(Online)<\/a><\/p>\n

Charge-based quantum computing using single donors in semiconductors<\/strong>
\nL.C.L. Hollenberg, A.S. Dzurak, C. Wellard, A.R. Hamilton, D.J. Reilly, G.J. Milburn, \u00a0R.G. Clark
\nPhysical Review B <\/em>69<\/strong>, 113301 (2004)
\n(Online)<\/a><\/p>\n

Observing sub-microsecond telegraph noise with the radio frequency single electron transistor<\/strong>
\nT.M. Buehler, D.J. Reilly, R.P. Starrett, V.C. Chan, A.R. Hamilton, A.S. Dzurak,\u00a0 R.G. Clark
\nJournal of Applied Physics <\/em>96<\/strong>, 6827 (2004)
\n(Online)<\/a><\/p>\n

Development and operation of the twin radio frequency single electron transistor for cross-correlated charge detection<\/strong>
\nT.M. Buehler, D.J. Reilly, R.P. Starrett, N.A. Court, A.R. Hamilton, A.S. Dzurak,\u00a0R.G. Clark
\nJournal of Applied Physics<\/em>\u00a096<\/strong>, 4508 (2004)
\n(Online)<\/a><\/p>\n

Correlated charge detection for read-out of a solid-state quantum computer<\/strong>
\nT.M. Buehler, D.J. Reilly, R. Brenner, A.R. Hamilton, A.S. Dzurak,\u00a0R.G. Clark
\nApplied Physics Letters <\/em>82<\/strong>, 577 (2003)
\n(Online)<\/a><\/p>\n

Progress in silicon-based quantum computing<\/strong>
\nR.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,\u00a0C. Yang
\nPhilosophical Transactions of the Royal Society of London A <\/em>361<\/strong>, 1451 (2003)
\n(Online)<\/a><\/p>\n

Double-island single-electron transistor for noise-suppressed detection of charge transfer<\/strong>
\nR. Brenner, A.R. Hamilton, R.G. Clark,\u00a0A.S. Dzurak
\nMicroelectronic Engineering\u00a0<\/em>67<\/strong>, 826 (2003)
\n(Online)<\/a><\/p>\n

The twin radio frequency single electron transistor for correlated charge detection on microsecond time-scales<\/strong>
\nT.M. Buehler, D. J. Reilly, R.P. Starrett, S. Kenyon, A.R. Hamilton, A.S. Dzurak, R.G. Clark
\nSpecial Issue of Microelectronic Engineering <\/em>67<\/strong>, 775 (2003)
\n(Online)<\/a><\/p>\n

Single electron devices for simulating read-out in a solid-state quantum computer<\/strong>
\nT.M. Buehler, D.J. Reilly, R.P. Starrett, N. Court, A.R. Hamilton, R. Brenner, A.S. Dzurak,\u00a0R.G. Clark
\nSurface Science <\/em>532<\/strong>, 1199 (2003)
\n(Online)<\/a><\/p>\n

TCAD modelling of ion beam induced charge collection in silicon Schottky barrier devices<\/strong>
\nS.M. Hearne, D.N. Jamieson, C.Yang,\u00a0A.S. Dzurak
\nNuclear Instruments and Methods in Physics Research B <\/em>210<\/strong>, 181 (2003)
\n(Online)<\/a><\/p>\n

Technology computer-aided design modelling of single-atom doping for fabrication of buried nanostructures<\/strong>
\nC.I. Pakes, D.P. George, C.J. Yang, D.N. Jamieson, A.S. Dzurak,\u00a0R.G. Clark
\nNanotechnology<\/em> 14<\/strong>, 157 (2003)
\n(Online)<\/a><\/p>\n

Modelling single-electron-transistor-based readout in the Kane solid-state quantum computer<\/strong>
\nC.I. Pakes, V. Conrad, J.C. Ang, F. Green, A.S. Dzurak, L.C.L. Hollenberg, D.N. Jamieson,\u00a0R.G. Clark
\nNanotechnology <\/em>14<\/strong>, 161 (2003)
\n(Online)<\/a><\/p>\n

IBIC Characterisation of Novel Detectors for Single Atom Doping of Quantum Computer Devices
\n<\/strong>C.J. Yang, D.N. Jamieson, C.I. Pakes, D.P. George, S.M. Hearne, A.S. Dzurak, E.Gauja, F.E. Stanley,\u00a0R.G. Clark
\n<\/strong>Nuclear Instruments & Methods In Physics Research Section <\/em>210<\/strong>, 186 (2003)
\n(Online)<\/a><\/strong><\/p>\n

Single phosphorous ion implantation into prefabricated nanometre cells of silicon devices for quantum bit fabrication<\/strong>
\nC.J. Yang, D.N. Jamieson, C.I. Pakes, S. Prawer, A.S. Dzurak, F.E. Stanley, P. Spizziri, L. Macks, E. Gauja,\u00a0R.G. Clark
\nThe Japanese Journal of Applied Physics <\/em>42<\/strong>, 4124 (2003)
\n(Online)<\/a><\/p>\n

Density-dependent spin polarization in ultra-low-disorder quantum wires<\/strong>
\nD.J. Reilly, T.M. Buehler, J.L. O’Brien, A.R. Hamilton, A.S. Dzurak,\u00a0R.G. Clark
\nPhysical Review Letters <\/em>89<\/strong>, 246801 (2002)
\n(Online)<\/a><\/p>\n

Self-aligned fabrication process for silicon quantum computer devices<\/strong>
\nT.M. Buehler, R.P. McKinnon, N.E. Lumpkin, R. Brenner, D.J. Reilly, L.D. Macks, A.R. Hamilton, A.S. Dzurak,\u00a0R.G. Clark
\nNanotechnology <\/em>13<\/strong>, 686 (2002)
\n(Online)<\/a><\/p>\n

Single-electron transistor architectures for charge motion detection in solid-state quantum computer devices<\/strong>
\nT.M. Buehler, R. Brenner, D.J. Reilly, A.R. Hamilton, A.S. Dzurak,\u00a0R.G. Clark
\nSmart Materials and Structures <\/em>11<\/strong>, 749 (2002)
\n(Online)<\/a><\/p>\n

Nanofabrication processes for single-ion implantation of silicon quantum computer devices<\/strong>
\nR.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,\u00a0S.D. Prawer
\nSmart Materials and Structures <\/em>11<\/strong>, 735 (2002)
\n(Online)<\/a><\/p>\n

Nanoscale fabrication using single-ion impacts<\/strong>
\nV. Millar, C.I. Pakes, A. Cimmino, D. Brett, D.N. Jamieson, S. Prawer, C.J. Yang, B. Rout, R.P. McKinnon, A.S. Dzurak,\u00a0R.G. Clark
\nSmart Materials and Structures <\/em>11<\/strong>, 686 (2002)
\n(Online)<\/a><\/p>\n

Scanning tunnelling microscope fabrication of arrays of phosphorus atom qubits for a silicon quantum computer<\/strong>
\nJ.L. O’Brien, S.R. Schofield, M.Y. Simmons, R.G. Clark, A.S. Dzurak, N.J. Curson, B.E. Kane, N.S. McAlpine, M.E. Hawley,\u00a0G.W. Brown
\nSmart Materials and Structures <\/em>11<\/strong>, 741 (2002)
\n(Online)<\/a><\/p>\n

Modelling of electrostatic gate operations in the Kane solid state quantum computer<\/strong>
\nC.I. Pakes, C.J. Wellard, D.N. Jamieson, L.C.L. Hollenberg, S. Prawer, A.S. Dzurak, A.R. Hamilton,\u00a0R.G. Clark
\nMicroelectronics Journal 33<\/strong>, 1053 (2002)
\n(Online)<\/a><\/em><\/p>\n

Ion beam induced charge characterisation of particle detectors<\/strong>
\nC.J. Yang, D.N. Jamieson, S.M. Hearne, C.I. Pakes, B. Rout, E. Gauja, A.S. Dzurak,\u00a0R.G. Clark
\nNuclear Instruments & Methods In Physics Research Section B: Beam Interactions with Materials & Atoms <\/em>190<\/strong>, 212 (2002)
\n(Online)<\/a><\/p>\n

Many-body spin related phenomena in ultra-low disorder quantum wires<\/strong>
\nD.J. Reilly, G.R. Facer, A.S. Dzurak, B.E. Kane, P.J. Stiles, R.G. Clark, A.R. Hamilton, J.L. O’Brien, N.E. Lumpkin, L.N. Pfeiffer,\u00a0K.W. West
\nPhysics Review B Rapid Communication<\/em> 63<\/strong>, 121311(R) (2001)
\n(Online)<\/a><\/p>\n

Construction of a silicon-based solid state quantum computer<\/strong>
\nA.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,\u00a0G.J. Milburn
\nQuantum Information And Computation<\/em> 1<\/strong>, 82 (2001)
\n(Online)<\/a><\/p>\n

Towards the fabrication of phosphorus qubits for a silicon quantum computer<\/strong>
\nJ.L. O’Brien, S.R. Schofield, M.Y. Simmons, R.G. Clark, A.S. Dzurak, N.J. Curson, B.E. Kane, N.S. McAlpine, M.E. Hawley,\u00a0G.W. Brown
\nPhysical Review B: Rapid Communications<\/em> 64<\/strong>, 1614 (2001)
\n(Online)<\/a><\/p>\n

Quantum measurement of coherent tunneling between quantum dots<\/strong>
\nH.M. Wiseman, D.W. Utami, H.B. Sun, G.J. Milburn, B.E. Kane, A.S. Dzurak,\u00a0R.G. Clark
\nPhysical Review B<\/em> 63<\/strong>, 235308 (2001)
\n(Online)<\/a><\/p>\n

Single-spin measurement using single-electron transistors to probe two-electron systems<\/strong>
\nB.E. Kane, N.S. McAlpine, A.S. Dzurak, R.G. Clark, G.J. Milburn, H.B. Sun,\u00a0H. Wiseman
\nPhysical Review B <\/em>61<\/strong>, 2961 (2000)
\n(Online)<\/a><\/p>\n

Experimental determination of the B-T phase diagram of YBa<\/strong>
\nJ.L. O’Brien, H. Nakagawa, A.S. Dzurak, R.G. Clark, B.E. Kane, N.E. Lumpkin, N. Muira, E.E. Mitchell, J.D. Goettee, J.S. Brooks, D.G. Rickel, R.P. Starrett
\nPhysical Review B<\/em> 61<\/strong>, 1584 (2000)
\n(Online)<\/a><\/p>\n

Many-body spin interactions in semiconductor quantum wires<\/strong>
\nD.J. Reilly, L.N. Pfeiffer, G.R. Facer, K.W. West, A.S. Dzurak, B.E. Kane, R.G. Clark, P.J. Stiles, J.L.\u00a0O\u2019Brien, N.E. Lumpkin
\nAustralian Journal of Physics<\/em> 53<\/strong>, 543 (2000)
\n(Online)<\/a><\/p>\n

Evidence for ballistic electron transport over distances exceeding 160 \u03bcm in an undoped GaAs\/Alx<\/sub>Ga1-x<\/sub>As field-effect transistor<\/strong>
\nG.R. Facer, B.E. Kane, A.S. Dzurak, N.E. Lumpkin, R.G. Clark, L.N. Pfeiffer,\u00a0K.W. West
\nPhysical Review B<\/em> 59<\/strong>, 4622 (1999)
\n(Online)<\/a><\/p>\n

Transport\u00a0measurements of in-plane critical fields in YBa2<\/sub>Cu3<\/sub>O7-\u03b4<\/sub> to 300 T<\/strong>
\nA. Dzurak, B.E. Kane, R.G. Clark, N.E. Lumpkin, J. O\u2019Brien, G.R. Facer, R.P. Starrett, A. Skougarevsky, H. Nakagawa, N. Miura, Y. Enomoto, D. Rickel, J.D. Goettee, L.J. Campbell, C.M. Fowler, C.Mielke, J.C. King, W.D. Zerwekh, D. Clark, A.I. Bykov, O.M. Tatsenko, V.V.\u00a0Platonov, E.E. Mitchell, J. Hermann,\u00a0K-H. Muller
\nPhysical Review B: Rapid Communication<\/em> 57<\/strong>,\u00a014084(R) (1998)
\n(Online)<\/a><\/p>\n

Quantised conductance in quantum wires with gate-controlled width and electron density<\/strong>
\nB.E. Kane, G.R. Facer, A.S. Dzurak, N.E. Lumpkin, R.G. Clark, L.N. Pfeiffer,\u00a0K.W. West
\nApplied Physics Letters<\/em> 72<\/strong>, 3506 (1998)
\n(Online)<\/a><\/p>\n","protected":false},"excerpt":{"rendered":"

Integrated silicon qubit platform with single-spin addressability, exchange control and robust single-shot singlet-triplet readout M.A. Fogarty, K.W. Chan, B. Hensen, W. Huang, T. Tanttu, C.H. Yang, A. Laucht, M. Veldhorst, F.E. Hudson, K.M. Itoh, D. Culcer, A. Morello, A.S. Dzurak ArXiv: 1708.03445 (2017)…<\/p>\n","protected":false},"author":100927,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"","meta":{"footnotes":""},"class_list":["post-69","page","type-page","status-publish","hentry"],"_links":{"self":[{"href":"https:\/\/blogs.unsw.edu.au\/dzuraklab\/wp-json\/wp\/v2\/pages\/69","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/blogs.unsw.edu.au\/dzuraklab\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/blogs.unsw.edu.au\/dzuraklab\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/blogs.unsw.edu.au\/dzuraklab\/wp-json\/wp\/v2\/users\/100927"}],"replies":[{"embeddable":true,"href":"https:\/\/blogs.unsw.edu.au\/dzuraklab\/wp-json\/wp\/v2\/comments?post=69"}],"version-history":[{"count":57,"href":"https:\/\/blogs.unsw.edu.au\/dzuraklab\/wp-json\/wp\/v2\/pages\/69\/revisions"}],"predecessor-version":[{"id":402,"href":"https:\/\/blogs.unsw.edu.au\/dzuraklab\/wp-json\/wp\/v2\/pages\/69\/revisions\/402"}],"wp:attachment":[{"href":"https:\/\/blogs.unsw.edu.au\/dzuraklab\/wp-json\/wp\/v2\/media?parent=69"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}