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Showing 1–10 of 10 results

Advanced filters: Author: J. P. Dehollain Clear advanced filters

Nagaoka ferromagnetism observed in a quantum dot plaquette

A quantum dot device designed to host four electrons is used to demonstrate Nagaoka ferromagnetism—a model of itinerant magnetism that has so far been limited to theoretical investigation.

J. P. Dehollain
U. Mukhopadhyay
L. M. K. Vandersypen
Research02 Mar 2020
Nature

Volume: 579, P: 528-533
Author Correction: Qubits made by advanced semiconductor manufacturing

A. M. J. Zwerver
T. Krähenmann
J. S. Clarke
Amendments and CorrectionsOpen Access27 Apr 2022
Nature Electronics

Volume: 5, P: 319
High-fidelity readout and control of a nuclear spin qubit in silicon

Electrical detection and coherent manipulation of a single ³¹P nuclear spin qubit is reported; the high fidelities are promising for fault-tolerant nuclear-spin-based quantum computing using silicon.

Jarryd J. Pla
Kuan Y. Tan
Andrea Morello
Research17 Apr 2013
Nature

Volume: 496, P: 334-338
A single-atom electron spin qubit in silicon

The coherent manipulation of an individual electron spin qubit bound to a single phosphorus donor atom in natural silicon provides an excellent platform on which to build a scalable quantum computer.

Jarryd J. Pla
Kuan Y. Tan
Andrea Morello
Research19 Sept 2012
Nature

Volume: 489, P: 541-545
Interferometric single-shot parity measurement in InAs–Al hybrid devices

A device architecture based on indium arsenide–aluminium heterostructures with a gate-defined superconducting nanowire allows single-shot interferometric measurement of fermion parity and demonstrates an assignment error probability of 1%.

Morteza Aghaee
Alejandro Alcaraz Ramirez
Justin Zilke
ResearchOpen Access19 Feb 2025
Nature

Volume: 638, P: 651-655
An addressable quantum dot qubit with fault-tolerant control-fidelity

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.

M. Veldhorst
J. C. C. Hwang
A. S. Dzurak
Research12 Oct 2014
Nature Nanotechnology

Volume: 9, P: 981-985
A two-qubit logic gate in silicon

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 quantum dot system using the exchange interaction.

M. Veldhorst
C. H. Yang
A. S. Dzurak
Research05 Oct 2015
Nature

Volume: 526, P: 410-414
Qubits made by advanced semiconductor manufacturing

Silicon spin qubits can be fabricated in a 300 mm semiconductor manufacturing facility using all-optical lithography and fully industrial processing.

A. M. J. Zwerver
T. Krähenmann
J. S. Clarke
ResearchOpen Access29 Mar 2022
Nature Electronics

Volume: 5, P: 184-190
A programmable two-qubit quantum processor in silicon

A two-qubit quantum processor in a silicon device is demonstrated, which can perform the Deutsch–Josza algorithm and the Grover search algorithm.

T. F. Watson
S. G. J. Philips
L. M. K. Vandersypen
Research14 Feb 2018
Nature

Volume: 555, P: 633-637
Loading a quantum-dot based “Qubyte” register

C. Volk
A. M. J. Zwerver
L. M. K. Vandersypen
ResearchOpen Access23 Apr 2019
npj Quantum Information

Volume: 5, P: 1-8