By Scientia Professor Andrew Dzurak

Preprints

Liles S; Halverson D; Wang Z; Shamim A; Eggli R; Jin IK; Hillier J; Kumar K; Vorreiter I; Rendell M; Huang JY; Escott C; Hudson F; Lim WH; Culcer D; Dzurak A; Hamilton A, 2024, A singlet-triplet hole-spin qubit in MOS silicon, , http://dx.doi.org/10.21203/rs.3.rs-3603337/v1

Hansen I; Seedhouse AE; Serrano S; Nickl A; Feng M; Huang JY; Tanttu T; Stuyck ND; Lim WH; Hudson FE; Itoh KM; Saraiva A; Laucht A; Dzurak AS; Yang CH, 2023, Entangling gates on degenerate spin qubits dressed by a global field, , http://arxiv.org/abs/2311.09567v2

Liles SD; Halverson DJ; Wang Z; Shamim A; Eggli RS; Jin IK; Hillier J; Kumar K; Vorreiter I; Rendell M; Huang JH; Escott CC; Hudson FE; Lim WH; Culcer D; Dzurak AS; Hamilton AR, 2023, A singlet-triplet hole-spin qubit in MOS silicon, , http://arxiv.org/abs/2310.09722v1

Stemp HG; Asaad S; van Blankenstein MR; Vaartjes A; Johnson MAI; Mądzik MT; Heskes AJA; Firgau HR; Su RY; Yang CH; Laucht A; Ostrove CI; Rudinger KM; Young K; Blume-Kohout R; Hudson FE; Dzurak AS; Itoh KM; Jakob AM; Johnson BC; Jamieson DN; Morello A, 2023, Tomography of entangling two-qubit logic operations in exchange-coupled donor electron spin qubits, , http://dx.doi.org/10.48550/arxiv.2309.15463

Stuyck ND; Seedhouse AE; Serrano S; Tanttu T; Gilbert W; Huang JY; Hudson F; Itoh KM; Laucht A; Lim WH; Yang CH; Saraiva A; Dzurak AS, 2023, Real-time feedback protocols for optimizing fault-tolerant two-qubit gate fidelities in a silicon spin system, , http://dx.doi.org/10.1063/5.0179958

Seedhouse AE; Stuyck ND; Serrano S; Tanttu T; Gilbert W; Huang JY; Hudson FE; Itoh KM; Laucht A; Lim WH; Yang CH; Dzurak AS; Saraiva A, 2023, Spatio-temporal correlations of noise in MOS spin qubits, , http://arxiv.org/abs/2309.12542v2

Wang Z; Sarkar A; Liles SD; Saraiva A; Dzurak AS; Hamilton AR; Culcer D, 2023, Electrical operation of hole spin qubits in planar MOS silicon quantum dots, , http://dx.doi.org/10.48550/arxiv.2309.12243

Dash A; Yianni S; Feng M; Hudson F; Saraiva A; Dzurak AS; Tanttu T, 2023, Silicon charge pump operation limit above and below liquid helium temperature, , http://dx.doi.org/10.1103/PhysRevApplied.21.014040

Cifuentes JD; Tanttu T; Steinacker P; Serrano S; Hansen I; Slack-Smith JP; Gilbert W; Huang JY; Vahapoglu E; Leon RCC; Stuyck ND; Itoh K; Abrosimov N; Pohl H-J; Thewalt M; Laucht A; Yang CH; Escott CC; Hudson FE; Lim WH; Rahman R; Dzurak AS; Saraiva A, 2023, Impact of electrostatic crosstalk on spin qubits in dense CMOS quantum dot arrays, , http://arxiv.org/abs/2309.01849v1

Guo KS; Feng M; Huang JY; Gilbert W; Itoh KM; Hudson FE; Chan KW; Lim WH; Dzurak AS; Saraiva A, 2023, Methods for transverse and longitudinal spin-photon coupling in silicon quantum dots with intrinsic spin-orbit effect, , http://arxiv.org/abs/2308.12626v1

Holmes D; Wilhelm B; Jakob AM; Yu X; Hudson FE; Itoh KM; Dzurak AS; Jamieson DN; Morello A, 2023, Improved placement precision of implanted donor spin qubits in silicon using molecule ions, , http://arxiv.org/abs/2308.04117v1

Su RY; Huang JY; Stuyck ND; Feng MK; Gilbert W; Evans TJ; Lim WH; Hudson FE; Chan KW; Huang W; Itoh KM; Harper R; Bartlett SD; Yang CH; Laucht A; Saraiva A; Tanttu T; Dzurak AS, 2023, Characterizing non-Markovian Quantum Process by Fast Bayesian Tomography, , http://arxiv.org/abs/2307.12452v2

Serrano S; Feng M; Lim WH; Seedhouse AE; Tanttu T; Gilbert W; Escott CC; Abrosimov NV; Pohl H-J; Thewalt MLW; Hudson FE; Saraiva A; Dzurak AS; Laucht A, 2023, Improved Single-Shot Qubit Readout Using Twin RF-SET Charge Correlations, , http://dx.doi.org/10.1103/PRXQuantum.5.010301

Cifuentes JD; Mai PY; Schlattner F; Ercan HE; Feng M; Escott CC; Dzurak AS; Saraiva A, 2023, Path integral simulation of exchange interactions in CMOS spin qubits, , http://dx.doi.org/10.1103/PhysRevB.108.155413

Sarkar A; Wang Z; Rendell M; Hendrickx NW; Veldhorst M; Scappucci G; Khalifa M; Salfi J; Saraiva A; Dzurak AS; Hamilton AR; Culcer D, 2023, Electrical operation of planar Ge hole spin qubits in an in-plane magnetic field, , http://dx.doi.org/10.1103/PhysRevB.108.245301

Fuentes IFD; Botzem T; Johnson MAI; Vaartjes A; Asaad S; Mourik V; Hudson FE; Itoh KM; Johnson BC; Jakob AM; McCallum JC; Jamieson DN; Dzurak AS; Morello A, 2023, Navigating the 16-dimensional Hilbert space of a high-spin donor qudit with electric and magnetic fields, , http://arxiv.org/abs/2306.07453v2

Cifuentes JD; Tanttu T; Gilbert W; Huang JY; Vahapoglu E; Leon RCC; Serrano S; Otter D; Dunmore D; Mai PY; Schlattner F; Feng M; Itoh K; Abrosimov N; Pohl H-J; Thewalt M; Laucht A; Yang CH; Escott CC; Lim WH; Hudson FE; Rahman R; Dzurak AS; Saraiva A, 2023, Bounds to electron spin qubit variability for scalable CMOS architectures, , http://arxiv.org/abs/2303.14864v2

Hansen I; Seedhouse AE; Saraiva A; Dzurak AS; Yang CH, 2023, Accessing the Full Capabilities of Filter Functions: A Tool for Detailed Noise and Control Susceptibility Analysis, , http://dx.doi.org/10.1103/PhysRevA.108.012426

Jin IK; Kumar K; Rendell MJ; Huang JY; Escott CC; Hudson FE; Lim WH; Dzurak AS; Hamilton AR; Liles SD, 2022, Combining n-MOS Charge Sensing with p-MOS Silicon Hole Double Quantum Dots in a CMOS platform, , http://dx.doi.org/10.1021/acs.nanolett.2c04417

Wang Z; Feng M; Serrano S; Gilbert W; Leon RCC; Tanttu T; Mai P; Liang D; Huang JY; Su Y; Lim WH; Hudson FE; Escott CC; Morello A; Yang CH; Dzurak AS; Saraiva A; Laucht A, 2022, Jellybean quantum dots in silicon for qubit coupling and on-chip quantum chemistry, , http://dx.doi.org/10.1002/adma.202208557

Feng M; Yoneda J; Huang W; Su Y; Tanttu T; Yang CH; Cifuentes JD; Chan KW; Gilbert W; Leon RCC; Hudson FE; Itoh KM; Laucht A; Dzurak AS; Saraiva A, 2022, Control of dephasing in spin qubits during coherent transport in silicon, , http://dx.doi.org/10.1103/PhysRevB.107.085427

Russell A; Zotov A; Zhao R; Dzurak AS; Gonzalez-Zalba MF; Rossi A, 2022, Gate-based spin readout of hole quantum dots with site-dependent $g-$factors, , http://dx.doi.org/10.48550/arxiv.2206.13125

Savytskyy R; Botzem T; Fuentes IFD; Joecker B; Pla JJ; Hudson FE; Itoh KM; Jakob AM; Johnson BC; Jamieson DN; Dzurak AS; Morello A, 2022, An electrically-driven single-atom `flip-flop' qubit, , http://arxiv.org/abs/2202.04438v3

Gilbert W; Tanttu T; Lim WH; Feng M; Huang JY; Cifuentes JD; Serrano S; Mai PY; Leon RCC; Escott CC; Itoh KM; Abrosimov NV; Pohl H-J; Thewalt MLW; Hudson FE; Morello A; Laucht A; Yang CH; Saraiva A; Dzurak AS, 2022, On-demand electrical control of spin qubits, , http://dx.doi.org/10.1038/s41565-022-01280-4

Dzurak AS; Epps J; Laucht A; Malaney R; Morello A; Nurdin HI; Pla JJ; Saraiva A; Yang CH, 2021, Development of an Undergraduate Quantum Engineering Degree, , http://dx.doi.org/10.1109/TQE.2022.3157338

Johnson MAI; Mądzik MT; Hudson FE; Itoh KM; Jakob AM; Jamieson DN; Dzurak A; Morello A, 2021, Beating the thermal limit of qubit initialization with a Bayesian Maxwell's demon, , http://dx.doi.org/10.1103/PhysRevX.12.041008

Hansen I; Seedhouse AE; Chan KW; Hudson F; Itoh KM; Laucht A; Saraiva A; Yang CH; Dzurak AS, 2021, Implementation of the SMART protocol for global qubit control in silicon, , http://dx.doi.org/10.48550/arxiv.2108.00836

Seedhouse AE; Hansen I; Laucht A; Yang CH; Dzurak AS; Saraiva A, 2021, Quantum Computation Protocol for Dressed Spins in a Global Field, , http://dx.doi.org/10.1103/PhysRevB.104.235411

Hansen I; Seedhouse AE; Saraiva A; Laucht A; Dzurak AS; Yang CH, 2021, The SMART protocol -- Pulse engineering of a global field for robust and universal quantum computation, , http://dx.doi.org/10.1103/PhysRevA.104.062415

Vahapoglu E; Slack-Smith JP; Leon RCC; Lim WH; Hudson FE; Day T; Cifuentes JD; Tanttu T; Yang CH; Saraiva A; Abrosimov NV; Pohl H-J; Thewalt MLW; Laucht A; Dzurak AS; Pla JJ, 2021, Coherent control of electron spin qubits in silicon using a global field, , http://dx.doi.org/10.48550/arxiv.2107.14622

Evans TJ; Huang W; Yoneda J; Harper R; Tanttu T; Chan KW; Hudson FE; Itoh KM; Saraiva A; Yang CH; Dzurak AS; Bartlett SD, 2021, Fast Bayesian tomography of a two-qubit gate set in silicon, , http://dx.doi.org/10.48550/arxiv.2107.14473

Saraiva A; Lim WH; Yang CH; Escott CC; Laucht A; Dzurak AS, 2021, Materials for Silicon Quantum Dots and their Impact on Electron Spin Qubits, , http://arxiv.org/abs/2107.13664v2

Huang JY; Lim WH; Leon RCC; Yang CH; Hudson FE; Escott CC; Saraiva A; Dzurak AS; Laucht A, 2021, A high-sensitivity charge sensor for silicon qubits above one kelvin, , http://dx.doi.org/10.48550/arxiv.2103.06433

Laucht A; Hohls F; Ubbelohde N; Gonzalez-Zalba MF; Reilly DJ; Stobbe S; Schröder T; Scarlino P; Koski JV; Dzurak A; Yang C-H; Yoneda J; Kuemmeth F; Bluhm H; Pla J; Hill C; Salfi J; Oiwa A; Muhonen JT; Verhagen E; LaHaye MD; Kim HH; Tsen AW; Culcer D; Geresdi A; Mol JA; Mohan V; Jain PK; Baugh J, 2021, Roadmap on quantum nanotechnologies, , http://dx.doi.org/10.48550/arxiv.2101.07882

Vahapoglu E; Slack-Smith JP; Leon RCC; Lim WH; Hudson FE; Day T; Tanttu T; Yang CH; Laucht A; Dzurak AS; Pla JJ, 2020, Single-electron spin resonance in a nanoelectronic device using a global field, , http://dx.doi.org/10.48550/arxiv.2012.10225

Liles SD; Martins F; Miserev DS; Kiselev AA; Thorvaldson ID; Rendell MJ; Jin IK; Hudson FE; Veldhorst M; Itoh KM; Sushkov OP; Ladd TD; Dzurak AS; Hamilton AR, 2020, Electrical control of the $g$-tensor of a single hole in a silicon MOS quantum dot, , http://dx.doi.org/10.1103/PhysRevB.104.235303

Gonzalez-Zalba MF; de Franceschi S; Charbon E; Meunier T; Vinet M; Dzurak AS, 2020, Scaling silicon-based quantum computing using CMOS technology: State-of-the-art, Challenges and Perspectives, , http://dx.doi.org/10.48550/arxiv.2011.11753

Leon RCC; Yang CH; Hwang JCC; Lemyre JC; Tanttu T; Huang W; Huang JY; Hudson FE; Itoh KM; Laucht A; Pioro-Ladrière M; Saraiva A; Dzurak AS, 2020, Bell-state tomography in a silicon many-electron artificial molecule, , http://dx.doi.org/10.48550/arxiv.2008.03968

Yoneda J; Huang W; Feng M; Yang CH; Chan KW; Tanttu T; Gilbert W; Leon RCC; Hudson FE; Itoh KM; Morello A; Bartlett SD; Laucht A; Saraiva A; Dzurak AS, 2020, Coherent spin qubit transport in silicon, , http://dx.doi.org/10.48550/arxiv.2008.04020

Mądzik MT; Laucht A; Hudson FE; Jakob AM; Johnson BC; Jamieson DN; Itoh KM; Dzurak AS; Morello A, 2020, Conditional quantum operation of two exchange-coupled single-donor spin qubits in a MOS-compatible silicon device, , http://dx.doi.org/10.48550/arxiv.2006.04483

Gilbert W; Saraiva A; Lim WH; Yang CH; Laucht A; Bertrand B; Rambal N; Hutin L; Escott CC; Vinet M; Dzurak AS, 2020, Single-electron operation of a silicon-CMOS 2x2 quantum dot array with integrated charge sensing, , http://dx.doi.org/10.48550/arxiv.2004.11558

Chan KW; Sahasrabudhe H; Huang W; Wang Y; Yang HC; Veldhorst M; Hwang JCC; Mohiyaddin FA; Hudson FE; Itoh KM; Saraiva A; Morello A; Laucht A; Rahman R; Dzurak AS, 2020, Exchange coupling in a linear chain of three quantum-dot spin qubits in silicon, , http://dx.doi.org/10.48550/arxiv.2004.07666

Seedhouse A; Tanttu T; Leon RCC; Zhao R; Tan KY; Hensen B; Hudson FE; Itoh KM; Yoneda J; Yang CH; Morello A; Laucht A; Coppersmith SN; Saraiva A; Dzurak AS, 2020, Pauli Blockade in Silicon Quantum Dots with Spin-Orbit Control, , http://dx.doi.org/10.48550/arxiv.2004.07078

Jenei M; Zhao R; Tan KY; Tanttu T; Chan KW; Sun Y; Sevriuk V; Hudson F; Rossi A; Dzurak A; Möttönen M, 2019, Superconducting charge sensor coupled to an electron layer in silicon, , http://dx.doi.org/10.48550/arxiv.1909.11976

Jenei M; Potanina E; Zhao R; Tan KY; Rossi A; Tanttu T; Chan KW; Sevriuk V; Möttönen M; Dzurak A, 2019, Waiting time distributions in a two-level fluctuator coupled to a superconducting charge detector, , http://dx.doi.org/10.48550/arxiv.1909.02866

Mądzik MT; Ladd TD; Hudson FE; Itoh KM; Jakob AM; Johnson BC; Jamieson DN; McCallum JC; Dzurak AS; Laucht A; Morello A, 2019, Controllable freezing of the nuclear spin bath in a single-atom spin qubit, , http://dx.doi.org/10.48550/arxiv.1907.11032

Asaad S; Mourik V; Joecker B; Johnson MAI; Baczewski AD; Firgau HR; Mądzik MT; Schmitt V; Pla JJ; Hudson FE; Itoh KM; McCallum JC; Dzurak AS; Laucht A; Morello A, 2019, Coherent electrical control of a single high-spin nucleus in silicon, , http://dx.doi.org/10.48550/arxiv.1906.01086

Hensen B; Huang WW; Yang C-H; Chan KW; Yoneda J; Tanttu T; Hudson FE; Laucht A; Itoh KM; Ladd TD; Morello A; Dzurak AS, 2019, A silicon quantum-dot-coupled nuclear spin qubit, , http://dx.doi.org/10.48550/arxiv.1904.08260

Yang CH; Leon RCC; Hwang JCC; Saraiva A; Tanttu T; Huang W; Lemyre JC; Chan KW; Tan KY; Hudson FE; Itoh KM; Morello A; Pioro-Ladrière M; Laucht A; Dzurak AS, 2019, Silicon quantum processor unit cell operation above one Kelvin, , http://dx.doi.org/10.48550/arxiv.1902.09126

Leon RCC; Yang CH; Hwang JCC; Lemyre JC; Tanttu T; Huang W; Chan KW; Tan KY; Hudson FE; Itoh KM; Morello A; Laucht A; Pioro-Ladriere M; Saraiva A; Dzurak AS, 2019, Coherent spin control of s-, p-, d- and f-electrons in a silicon quantum dot, , http://dx.doi.org/10.48550/arxiv.1902.01550

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