Search Results - "Veldhorst, M."

Silicon CMOS architecture for a spin-based quantum computer by Veldhorst, M., Eenink, H. G. J., Yang, C. H., Dzurak, A. S.

“…Recent advances in quantum error correction codes for fault-tolerant quantum computing and physical realizations of high-fidelity qubits in multiple platforms…”
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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 compatibility with standard semiconductor manufacturing…”
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Fast two-qubit logic with holes in germanium by Hendrickx, N. W., Franke, D. P., Sammak, A., Scappucci, G., Veldhorst, M.

“…Universal quantum information processing requires the execution of single-qubit and two-qubit logic. Across all qubit realizations 1 , spin qubits in quantum…”
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A programmable two-qubit quantum processor in silicon by Watson, T. F., Philips, S. G. J., Kawakami, E., Ward, D. R., Scarlino, P., Veldhorst, M., Savage, D. E., Lagally, M. G., Friesen, Mark, Coppersmith, S. N., Eriksson, M. A., Vandersypen, L. M. K.

“…A two-qubit quantum processor in a silicon device is demonstrated, which can perform the Deutsch–Josza algorithm and the Grover search algorithm. Taken for a…”
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Gate-controlled quantum dots and superconductivity in planar germanium by Hendrickx, N. W., Franke, D. P., Sammak, A., Kouwenhoven, M., Sabbagh, D., Yeoh, L., Li, R., Tagliaferri, M. L. V., Virgilio, M., Capellini, G., Scappucci, G., Veldhorst, M.

“…Superconductors and semiconductors are crucial platforms in the field of quantum computing. They can be combined to hybrids, bringing together physical…”
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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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Interfacing spin qubits in quantum dots and donors—hot, dense, and coherent by Vandersypen, L. M. K., Bluhm, H., Clarke, J. S., Dzurak, A. S., Ishihara, R., Morello, A., Reilly, D. J., Schreiber, L. R., Veldhorst, M.

“…Semiconductor spins are one of the few qubit realizations that remain a serious candidate for the implementation of large-scale quantum circuits. Excellent…”
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An addressable quantum dot qubit with fault-tolerant control-fidelity by Veldhorst, M., Hwang, J. C. C., Yang, C. H., Leenstra, A. W., de Ronde, B., Dehollain, J. P., Muhonen, J. T., Hudson, F. E., Itoh, K. M., Morello, A., Dzurak, A. S.

“…A quantum bit that can be addressed with a gate voltage and has a very high control-fidelity can be realized in an electrically defined silicon quantum dot…”
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Lightly strained germanium quantum wells with hole mobility exceeding one million by Lodari, M., Kong, O., Rendell, M., Tosato, A., Sammak, A., Veldhorst, M., Hamilton, A. R., Scappucci, G.

“…We demonstrate that a lightly strained germanium channel ( ε / / = − 0.41 %) in an undoped Ge/Si0.1Ge0.9 heterostructure field effect transistor supports a…”
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Spin and orbital structure of the first six holes in a silicon metal-oxide-semiconductor quantum dot by Liles, S. D., Li, R., Yang, C. H., Hudson, F. E., Veldhorst, M., Dzurak, A. S., Hamilton, A. R.

“…Valence band holes confined in silicon quantum dots are attracting significant attention for use as spin qubits. However, experimental studies of single-hole…”
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Integrated silicon qubit platform with single-spin addressability, exchange control and single-shot singlet-triplet readout by Fogarty, M. A., Chan, K. W., Hensen, B., Huang, W., Tanttu, T., Yang, C. H., Laucht, A., Veldhorst, M., Hudson, F. E., Itoh, K. M., Culcer, D., Ladd, T. D., Morello, A., Dzurak, A. S.

“…Silicon quantum dot spin qubits provide a promising platform for large-scale quantum computation because of their compatibility with conventional CMOS…”
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A two-qubit logic gate in silicon by Veldhorst, M., Yang, C. H., Hwang, J. C. C., Huang, W., Dehollain, J. P., Muhonen, J. T., Simmons, S., Laucht, A., Hudson, F. E., Itoh, K. M., Morello, A., Dzurak, A. S.

“…A high-fidelity two-qubit CNOT logic gate is presented, which is realized by combining single- and two-qubit operations with controlled phase operations in a…”
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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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Spin Lifetime and Charge Noise in Hot Silicon Quantum Dot Qubits by Petit, L, Boter, J M, Eenink, H G J, Droulers, G, Tagliaferri, M L V, Li, R, Franke, D P, Singh, K J, Clarke, J S, Schouten, R N, Dobrovitski, V V, Vandersypen, L M K, Veldhorst, M

“…We investigate the magnetic field and temperature dependence of the single-electron spin lifetime in silicon quantum dots and find a lifetime of 2.8 ms at a…”
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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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Spin-orbit coupling and operation of multivalley spin qubits by Veldhorst, M., Ruskov, R., Yang, C. H., Hwang, J. C. C., Hudson, F. E., Flatté, M. E., Tahan, C., Itoh, K. M., Morello, A., Dzurak, A. S.

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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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Andreev bound states and current-phase relations in three-dimensional topological insulators by Snelder, M., Veldhorst, M., Golubov, A. A., Brinkman, A.

“…To guide the search for the Majorana fermion, we theoretically study superconductor/topological-insulator/superconductor (S/TI/S) junctions in an…”
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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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Protein-induced satiety: Effects and mechanisms of different proteins by Veldhorst, M, Smeets, A, Soenen, S, Hochstenbach-Waelen, A, Hursel, R, Diepvens, K, Lejeune, M, Luscombe-Marsh, N, Westerterp-Plantenga, M

“…Abstract Relatively high protein diets, i.e. diets that maintain the absolute number of grams of protein ingested as compared to before dieting, are a popular…”
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