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1. Engineering long spin coherence times of spin-orbit systems

Author

Kobayashi, T., Salfi, J., van der Heijden, J., Chua, C., House, M. G., Culcer, D., Hutchison, W. D., Johnson, B. C., McCallum, J. C., Riemann, H., Abrosimov, N. V., Becker, P., Pohl, H. -J., Simmons, M. Y., and Rogge, S.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics
Abstract

Spin-orbit coupling fundamentally alters spin qubits, opening pathways to improve the scalability of quantum computers via long distance coupling mediated by electric fields, photons, or phonons. It also allows for new engineered hybrid and topological quantum systems. However, spin qubits with intrinsic spin-orbit coupling are not yet viable for quantum technologies due to their short ($\sim1~\mu$s) coherence times $T_2$, while qubits with long $T_2$ have weak spin-orbit coupling making qubit coupling short-ranged and challenging for scale-up. Here we show that an intrinsic spin-orbit coupled "generalised spin" with total angular momentum $J=\tfrac{3}{2}$, which is defined by holes bound to boron dopant atoms in strained $^{28}\mathrm{Si}$, has $T_2$ rivalling the electron spins of donors and quantum dots in $^{28}\mathrm{Si}$. Using pulsed electron paramagnetic resonance, we obtain $0.9~\mathrm{ms}$ Hahn-echo and $9~\mathrm{ms}$ dynamical decoupling $T_2$ times, where strain plays a key role to reduce spin-lattice relaxation and the longitudinal electric coupling responsible for decoherence induced by electric field noise. Our analysis shows that transverse electric dipole can be exploited for electric manipulation and qubit coupling while maintaining a weak longitudinal coupling, a feature of $J=\tfrac{3}{2}$ atomic systems with a strain engineered quadrupole degree of freedom. These results establish single-atom hole spins in silicon with quantised total angular momentum, not spin, as a highly coherent platform with tuneable intrinsic spin-orbit coupling advantageous to build artificial quantum systems and couple qubits over long distances., Comment: 14 pages, 4 figures + 13 pages, 5 figures of Supplemental material

Published
2018
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2. Single-shot single-gate RF spin readout in silicon

Author

Pakkiam, P., Timofeev, A. V., House, M. G., Hogg, M. R., Kobayashi, T., Koch, M., Rogge, S., and Simmons, M. Y.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics
Abstract

For solid-state spin qubits, single-gate RF readout can help minimise the number of gates required for scale-up to many qubits since the readout sensor can integrate into the existing gates required to manipulate the qubits (Veldhorst 2017, Pakkiam 2018). However, a key requirement for a scalable quantum computer is that we must be capable of resolving the qubit state within single-shot, that is, a single measurement (DiVincenzo 2000). Here we demonstrate single-gate, single-shot readout of a singlet-triplet spin state in silicon, with an average readout fidelity of $82.9\%$ at a $3.3~\text{kHz}$ measurement bandwidth. We use this technique to measure a triplet $T_-$ to singlet $S_0$ relaxation time of $0.62~\text{ms}$ in precision donor quantum dots in silicon. We also show that the use of RF readout does not impact the maximum readout time at zero detuning limited by the $S_0$ to $T_-$ decay, which remained at approximately $2~\text{ms}$. This establishes single-gate sensing as a viable readout method for spin qubits.

Published
2018
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3. Two-Electron Spin Correlations in Precision Placed Donors in Silicon

Author

Broome, M. A., Gorman, S. K., House, M. G., Hile, S. J., Keizer, J. G., Keith, D., Hill, C. D., Watson, T. F., Baker, W. J., Hollenberg, L. C. L., and Simmons, M. Y.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics
Abstract

Substitutional donor atoms in silicon are promising qubits for quantum computation with extremely long relaxation and dephasing times demonstrated. One of the critical challenges of scaling these systems is determining inter-donor distances to achieve controllable wavefunction overlap while at the same time performing high fidelity spin readout on each qubit. Here we achieve such a device by means of scanning tunnelling microscopy lithography. We measure anti-correlated spin states between two donor-based spin qubits in silicon separated by 16${\pm}1$ nm. By utilizing an asymmetric system with two phosphorus donors at one qubit site and one on the other (2P-1P), we demonstrate that the exchange interaction can be turned on and off via electrical control of two in-plane phosphorus doped detuning gates. We determine the tunnel coupling between the 2P-1P system to be 200 MHz and provide a roadmap for the observation of two-electron coherent exchange oscillations., Comment: 19 pages, 10 figures - DEV053 - Team Viper

Published
2018
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4. High Fidelity Single-Shot Singlet-Triplet Readout of Precision Placed Donors in Silicon

Author

Broome, M. A., Watson, T. F., Keith, D., Gorman, S. K., House, M. G., Keizer, J. G., Hile, S. J., Baker, W., and Simmons, M. Y.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics
Abstract

In this work we perform direct single-shot readout of the singlet-triplet states in exchange coupled electrons confined to precision placed donor atoms in silicon. Our method takes advantage of the large energy splitting given by the Pauli-spin blockaded (2,0) triplet states, from which we can achieve a single-shot readout fidelity of 98.4$\pm$0.2%. We measure the triplet-minus relaxation time to be of the order 3s at 2.5T and observe its predicted decrease as a function of magnetic field, reaching 0.5s at 1T., Comment: 8 pages, 4 figures - DEV053 - Team Viper

Published
2018
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5. Singlet-triplet minus mixing and relaxation lifetimes in a double donor dot

Author

Gorman, S. K., Broome, M. A., House, M. G., Hile, S. J., Keizer, J. G., Keith, D., Watson, T. F., Baker, W. J., and Simmons, M. Y.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics
Abstract

We measure singlet-triplet mixing in a precision fabricated double donor dot comprising of 2 and 1 phosphorus atoms separated by $16{\pm}1$ nm. We identify singlet and triplet-minus states by performing sequential independent spin readout of the two electron system and probe its dependence on magnetic field strength. The relaxation of singlet and triplet states are measured to be $12.4{\pm}1.0$ s and $22.1{\pm}1.0$ s respectively at $B_z{=}2.5$ T., Comment: 5 pages, 4 figures - DEV053 - Team Viper

Published
2018
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7. Spin-orbit dynamics of single acceptor atoms in silicon

Author

van der Heijden, J., Kobayashi, T., House, M. G., Salfi, J., Barraud, S., Lavieville, R., Simmons, M. Y., and Rogge, S.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Two-level quantum systems with strong spin-orbit coupling allow for all-electrical qubit control and long-distance qubit coupling via microwave and phonon cavities, making them of particular interest for scalable quantum information technologies. In silicon, a strong spin-orbit coupling exists within the spin-3/2 system of acceptor atoms and their energy levels and properties are expected to be highly tunable. Here we show the influence of local symmetry tuning on the acceptor spin-dynamics, measured in the single-atom regime. Spin-selective tunneling between two coupled boron atoms in a commercial CMOS transistor is utilised for spin-readout, which allows for the probing of the two-hole spin relaxation mechanisms. A relaxation-hotspot is measured and explained by the mixing of acceptor heavy and light hole states. Furthermore, excited state spectroscopy indicates a magnetic field controlled rotation of the quantization axes of the atoms. These observations demonstrate the tunability of the spin-orbit states and dynamics of this spin-3/2 system., Comment: 7 pages, 4 figures. Supplementary information: 6 pages, 5 figures

Published
2017
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10. Resonant tunneling spectroscopy of valley eigenstates on a hybrid double quantum dot

Author

Kobayashi, T., van der Heijden, J., House, M. G., Hile, S. J., Asshoff, Pablo, Gonzalez-Zalba, M. F., Vinet, M., Simmons, M. Y., and Rogge, S.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report electronic transport measurements through a silicon hybrid double quantum dot consisting of a donor and a quantum dot. Transport spectra show resonant tunneling peaks involving different valley states, which illustrate the valley splitting in a quantum dot on a Si/SiO2 interface. The detailed gate bias dependence of double dot transport allows a first direct observation of the valley splitting in the quantum dot, which is controllable between 160-240 ueV with an electric field dependence 1.2 +- 0.2 meV/(MV/m). A large valley splitting is an essential requirement to implement a physical electron spin qubit in a silicon quantum dot., Comment: 10 pages, 3 figures

Published
2016
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11. Single-charge detection by an atomic precision tunnel junction

Author

House, M. G., Peretz, E., Keizer, J. G., Hile, S. J., and Simmons, M. Y.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We demonstrate sensitive detection of single charges using a planar tunnel junction 8.5nm wide and 17.2nm long defined by an atomically precise phosphorus doping profile in silicon. The conductance of the junction responds to a nearby gate potential and also to changes in the charge state of a quantum dot patterned 52nm away. The response of this detector is monotonic across the entire working voltage range of the device, which will make it particularly useful for studying systems of multiple quantum dots. The charge sensitivity is maximized when the junction is most conductive, suggesting that more sensitive detection can be achieved by shortening the length of the junction to increase its conductance., Comment: 4 pages; 4 figures

Published
2014
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14. Detection and measurement of spin-dependent dynamics in random telegraph signals

Author

House, M. G., Xiao, Ming, Guo, GuoPing, Li, HaiOu, Cao, Gang, Rosenthal, M. M., and Jiang, HongWen

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

A quantum point contact was used to observe single-electron fluctuations of a quantum dot in a GaAs heterostructure. The resulting random telegraph signals (RTS) contain statistical information about the electron spin state if the tunneling dynamics are spin-dependent. We develop a statistical method to extract information about spin-dependent dynamics from RTS and use it to demonstrate that these dynamics can be studied in the thermal energy regime. The tunneling rates of each spin state are independently measured in a finite external magnetic field. We confirm previous findings of a decrease in overall tunneling rates for the spin excited state compared to the ground state as an external magnetic field is increased., Comment: Phys. Rev. Lett.; 5 pages, 3 figures

Published
2013
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15. Measurement of the Spin Relaxation Time of Single Electrons in a Silicon MOS-Based Quantum Dot

Author

Xiao, M., House, M. G., and Jiang, H. W.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

We report on measurements of the spin relaxation time T1 of individual electron spins in the few electron regime of a Si/SiO2-based quantum dot (QD). Energy-spectroscopy of the QD has been performed using a charge sensing technique. The spin relaxation times are subsequently measured in the time-domain by a pump-and-probe method. For the QD that contains an unpaired spin, likely only a single electron, we find that T1 depends strongly on the applied magnetic field. Possible mechanisms leading to the observed spin relaxation are discussed., Comment: 11 pages, 4 figures

Published
2009
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17. 673 Improving cystic fibrosis clinic efficiency: a quality improvement project arising from patient experience data

Author

Ries, O., primary, Bashaw, H., additional, Baxter, B., additional, Bentley, K., additional, Bueno, A. Reyes, additional, Cargal, A. Hernández, additional, Clute, K., additional, Cook, M., additional, Driggers, C., additional, Gardner, L., additional, House, M., additional, Jones, B., additional, Krikorian, K., additional, Martin, M., additional, McNeany, J., additional, McKinnon, M., additional, Patel, K., additional, Pendley, S., additional, Stark, H., additional, Linnemann, R., additional, and Hazen, M., additional

Published
2023
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26. Operative Pancreas Debridement in 2021: Who and When?

Author

McGuire, S., primary, Maatman, T., additional, Kim, R., additional, Lewellen, K., additional, Ceppa, E., additional, House, M., additional, Nakeeb, A., additional, Nguyen, T., additional, Schmidt, C.M., additional, and Zyromski, N., additional

Published
2022
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33. Surgeon experience contributes to improved outcomes in pancreatoduodenectomies at high risk for fistula development

Author

Casciani, F., primary, Trudeau, M., additional, Asbun, H., additional, Ball, C., additional, Bassi, C., additional, Behrman, S., additional, Berger, A., additional, Bloomston, M., additional, Callery, M., additional, Christein, J., additional, Falconi, M., additional, Fernandez-Del Castillo, C., additional, Dillhoff, M., additional, Dickson, E., additional, Dixon, E., additional, Fisher, W., additional, House, M., additional, Hughes, S., additional, Kent, T., additional, Malleo, G., additional, Partelli, S., additional, Salem, R., additional, Stauffer, J., additional, Wolfgang, C., additional, Zureikat, A., additional, and Vollmer, C., additional

Published
2021
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34. Clinically relevant pancreatic fistula following pancreatoduodenectomy is associated with high intraoperative blood loss: A multi-institutional propensity score matched analysis

Author

Casciani, F., primary, Trudeau, M., additional, Asbun, H., additional, Ball, C., additional, Bassi, C., additional, Behrman, S., additional, Berger, A., additional, Bloomston, M., additional, Callery, M., additional, Christein, J., additional, Falconi, M., additional, Fernandez-Del Castillo, C., additional, Dillhoff, M., additional, Dickson, E., additional, Dixon, E., additional, Fisher, W., additional, House, M., additional, Hughes, S., additional, Kent, T., additional, Kunstmann, J., additional, Malleo, G., additional, Partelli, S., additional, Wolfgang, C., additional, Zureikat, A., additional, and Vollmer, C., additional

Published
2021
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41. Oscillations of Cantilevered Tubular Steel Piles in Current Flow

Author

House, M.

Subjects
in-line cantilevered piles, Current Flow, Oscillations, Tubular Steel Piles, Current velocities, Maritime structures
Abstract

A laboratory experiment was conducted in a 20 m flume tank at Plymouth University to investigate the movement of, and forces applied to, a pair of in-line cantilevered piles. 2-minute tests were run with a 64 mm diameter upstream pile and downstream piles of 64 mm, 40 mm and 30 mm. Current velocities ranging from 0.1 to 0.9 m/s and spacings between the piles of 3 to 10 diameters were varied along with the downstream pile diameter. Initially, tests with all 3 piles on their own were conducted and the results showed a close comparison with the theoretical cross-flow oscillation frequency and the measured cross-flow oscillation frequency of the solitary pile. Similarities between the theoretical and measured steady drag forces were not identified but a significant relationship between steady drag force on the downstream pile and spacing was discovered. The results indicated that when the spacing was small, approximately 3 to 4 diameters, the downstream pile experienced more drag force than the upstream. The force steadily decreased until it appeared to level out around 9 to 10 diameters away. Analysis of the cross-flow oscillations of the downstream pile revealed that the 64 mm pile oscillated with a frequency close to the theoretical at all spacings and flow velocities. Whereas, the 40 mm and 30 mm piles oscillated with frequencies less than the theoretical, at all spacings and flow velocities. Despite the solitary 40 mm and 30 mm piles oscillating at the theoretical frequency. This demonstrated that the oscillation frequency of the downstream pile was governed by the size and therefore the vortex shedding frequency of the upstream pile.

Published
2020

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