Search Results - "Lawrie, W. I. L."

A single-hole spin qubit by Hendrickx, N. W., Lawrie, W. I. L., Petit, L., Sammak, A., Scappucci, G., Veldhorst, M.

“…Qubits based on quantum dots have excellent prospects for scalable quantum technology due to their compatibility with standard semiconductor manufacturing…”
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Simultaneous single-qubit driving of semiconductor spin qubits at the fault-tolerant threshold by Lawrie, W. I. L., Rimbach-Russ, M., Riggelen, F. van, Hendrickx, N. W., Snoo, S. L. de, Sammak, A., Scappucci, G., Helsen, J., Veldhorst, M.

“…Practical Quantum computing hinges on the ability to control large numbers of qubits with high fidelity. Quantum dots define a promising platform due to their…”
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Universal quantum logic in hot silicon qubits by Petit, L., Eenink, H. G. J., Russ, M., Lawrie, W. I. L., Hendrickx, N. W., Philips, S. G. J., Clarke, J. S., Vandersypen, L. M. K., Veldhorst, M.

“…Quantum computation requires many qubits that can be coherently controlled and coupled to each other 1 . Qubits that are defined using lithographic techniques…”
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Quantum dot arrays in silicon and germanium by Lawrie, W. I. L., Eenink, H. G. J., Hendrickx, N. W., Boter, J. M., Petit, L., Amitonov, S. V., Lodari, M., Paquelet Wuetz, B., Volk, C., Philips, S. G. J., Droulers, G., Kalhor, N., van Riggelen, F., Brousse, D., Sammak, A., Vandersypen, L. M. K., Scappucci, G., Veldhorst, M.

“…Electrons and holes confined in quantum dots define excellent building blocks for quantum emergence, simulation, and computation. Silicon and germanium are…”
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Spin Relaxation Benchmarks and Individual Qubit Addressability for Holes in Quantum Dots by Lawrie, W. I. L, Hendrickx, N. W, van Riggelen, F, Russ, M, Petit, L, Sammak, A, Scappucci, G, Veldhorst, M

“…We investigate hole spin relaxation in the single- and multihole regime in a 2 × 2 germanium quantum dot array. We find spin relaxation times T 1 as high as 32…”
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Tunable Coupling and Isolation of Single Electrons in Silicon Metal-Oxide-Semiconductor Quantum Dots by Eenink, H. G. J, Petit, L, Lawrie, W. I. L, Clarke, J. S, Vandersypen, L. M. K, Veldhorst, M

“…Extremely long coherence times, excellent single-qubit gate fidelities, and two-qubit logic have been demonstrated with silicon metal-oxide-semiconductor spin…”
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Phase flip code with semiconductor spin qubits by van Riggelen, F., Lawrie, W. I. L., Russ, M., Hendrickx, N. W., Sammak, A., Rispler, M., Terhal, B. M., Scappucci, G., Veldhorst, M.

“…The fault-tolerant operation of logical qubits is an important requirement for realizing a universal quantum computer. Spin qubits based on quantum dots have…”
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A two-dimensional array of single-hole quantum dots by van Riggelen, F., Hendrickx, N. W., Lawrie, W. I. L., Russ, M., Sammak, A., Scappucci, G., Veldhorst, M.

“…Quantum dots fabricated using methods compatible with semiconductor manufacturing are promising for quantum information processing. In order to fully utilize…”
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Exciton Transport in a Germanium Quantum Dot Ladder by Hsiao, T.-K., Cova Fariña, P., Oosterhout, S. D., Jirovec, D., Zhang, X., van Diepen, C. J., Lawrie, W. I. L., Wang, C.-A., Sammak, A., Scappucci, G., Veldhorst, M., Demler, E., Vandersypen, L. M. K.

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Simultaneous single-qubit driving of semiconductor spin qubits at the fault-tolerant threshold by Lawrie, W. I. L, Rimbach-Russ, M, van Riggelen, F, Hendrickx, N. W, de Snoo, S. L, Sammak, A, Scappucci, G, Helsen, J, Veldhorst, M

“…Nature Communications 14, 3617 (2023) Practical Quantum computing hinges on the ability to control large numbers of qubits with high fidelity. Quantum dots…”
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Exciton transport in a germanium quantum dot ladder by Hsiao, T. -K, Fariña, P. Cova, Oosterhout, S. D, Jirovec, D, Zhang, X, van Diepen, C. J, Lawrie, W. I. L, Wang, C. -A, Sammak, A, Scappucci, G, Veldhorst, M, Demler, E, Vandersypen, L. M. K

“…Phys. Rev. X 14, 011048 (2024) Quantum systems with engineered Hamiltonians can be used as simulators of many-body physics problems to provide insights beyond…”
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A two-dimensional array of single-hole quantum dots by van Riggelen, F, Hendrickx, N. W, Lawrie, W. I. L, Russ, M, Summak, A, Scappucci, G, Veldhorst, M

“…Quantum dots fabricated using techniques and materials that are compatible with semiconductor manufacturing are promising for quantum information processing…”
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A single-hole spin qubit by Hendrickx, N. W, Lawrie, W. I. L, Petit, L, Sammak, A, Scappucci, G, Veldhorst, M

“…Qubits based on quantum dots have excellent prospects for scalable quantum technology due to their inherent compatibility with standard semiconductor…”
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Low percolation density and charge noise with holes in germanium by Lodari, M, Hendrickx, N. W, Lawrie, W. I. L, Hsiao, T. -K, Vandersypen, L. M. K, Sammak, A, Veldhorst, M, Scappucci, G

“…We engineer planar Ge/SiGe heterostructures for low disorder and quiet hole quantum dot operation by positioning the strained Ge channel 55~nm below the…”
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Spin relaxation benchmarks and individual qubit addressability for holes in quantum dots by Lawrie, W. I. L, Hendrickx, N. W, van Riggelen, F, Russ, M, Petit, L, Sammak, A, Scappucci, G, Veldhorst, M

“…Nano Lett. 2020, 20, 10, 7237-7242 We investigate hole spin relaxation in the single- and multi-hole regime in a 2x2 germanium quantum dot array. We use…”
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Tunable coupling and isolation of single electrons in silicon metal-oxide-semiconductor quantum dots by Eenink, H. G. J, Petit, L, Lawrie, W. I. L, Clarke, J. S, Vandersypen, L. M. K, Veldhorst, M

“…Nano Letters 19 (12), 8653-8657 (2019) Extremely long coherence times, excellent single-qubit gate fidelities and two-qubit logic have been demonstrated with…”
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A four-qubit germanium quantum processor by Hendrickx, N. W, Lawrie, W. I. L, Russ, M, van Riggelen, F, de Snoo, S. L, Schouten, R. N, Sammak, A, Scappucci, G, Veldhorst, M

“…The prospect of building quantum circuits using advanced semiconductor manufacturing positions quantum dots as an attractive platform for quantum information…”
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Universal quantum logic in hot silicon qubits by Petit, L, Eenink, H. G. J, Russ, M, Lawrie, W. I. L, Hendrickx, N. W, Clarke, J. S, Vandersypen, L. M. K, Veldhorst, M

“…Nature 580, 355-359 (2020) Quantum computation requires many qubits that can be coherently controlled and coupled to each other. Qubits that are defined using…”
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Quantum Dot Arrays in Silicon and Germanium by Lawrie, W. I. L, Eenink, H. G. J, Hendrickx, N. W, Boter, J. M, Petit, L, Amitonov, S. V, Lodari, M, Wuetz, B. Paquelet, Volk, C, Philips, S, Droulers, G, Kalhor, N, van Riggelen, F, Brousse, D, Sammak, A, Vandersypen, L. M. K, Scappucci, G, Veldhorst, M

“…Appl. Phys. Lett. 116, 080501 (2020) Electrons and holes confined in quantum dots define an excellent building block for quantum emergence, simulation, and…”
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Phase flip code with semiconductor spin qubits by van Riggelen, F, Lawrie, W. I. L, Russ, M, Hendrickx, N. W, Sammak, A, Rispler, M, Terhal, B. M, Scappucci, G, Veldhorst, M

“…The fault-tolerant operation of logical qubits is an important requirement for realizing a universal quantum computer. Spin qubits based on quantum dots have…”
Get full text