B
Bas Hensen
Researcher at University of New South Wales
Publications - 64
Citations - 7980
Bas Hensen is an academic researcher from University of New South Wales. The author has contributed to research in topics: Qubit & Quantum computer. The author has an hindex of 32, co-authored 63 publications receiving 6492 citations. Previous affiliations of Bas Hensen include Delft University of Technology.
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Journal ArticleDOI
Loophole-free Bell inequality violation using electron spins separated by 1.3 kilometres
Bas Hensen,Hannes Bernien,Hannes Bernien,A. Dréau,Andreas Reiserer,Norbert Kalb,Machiel Blok,Justus W. Ruitenberg,R. F. L. Vermeulen,Raymond N. Schouten,Carlos Abellan,Waldimar Amaya,Valerio Pruneri,Valerio Pruneri,Morgan W. Mitchell,Morgan W. Mitchell,Matthew Markham,Daniel J. Twitchen,David Elkouss,Stephanie Wehner,Tim H. Taminiau,Ronald Hanson +21 more
TL;DR: The data imply statistically significant rejection of the local-realist null hypothesis and could be used for testing less-conventional theories, and for implementing device-independent quantum-secure communication and randomness certification.
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Heralded entanglement between solid-state qubits separated by three metres
Hannes Bernien,Bas Hensen,Wolfgang Pfaff,Gerwin Koolstra,Machiel Blok,L. Robledo,Tim H. Taminiau,Matthew Markham,Daniel J. Twitchen,Lilian Childress,Ronald Hanson +10 more
TL;DR: Long-distance entanglement of two electron spin qubits in diamond with a spatial separation of three metres is established using a robust protocol based on creation of spin–photonEntanglement at each location and a subsequent joint measurement of the photons.
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High-fidelity projective read-out of a solid-state spin quantum register
TL;DR: The preparation and measurement of a multi-spin quantum register in a low-temperature solid-state system is demonstrated by implementing resonant optical excitation techniques originally developed in atomic physics, and compatibility with qubit control is shown.
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Unconditional quantum teleportation between distant solid-state quantum bits
Wolfgang Pfaff,Bas Hensen,Hannes Bernien,S. B. van Dam,Machiel Blok,Tim H. Taminiau,M. J. Tiggelman,Raymond N. Schouten,Matthew Markham,Daniel J. Twitchen,Ronald Hanson +10 more
TL;DR: Diamond spin qubits are established as a prime candidate for the realization of quantum networks for quantum communication and network-based quantum computing through unconditional teleportation of arbitrary quantum states between diamondspin qubits separated by 3 meters.
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Repeated quantum error correction on a continuously encoded qubit by real-time feedback.
J. Cramer,Norbert Kalb,M. A. Rol,Bas Hensen,Machiel Blok,Matthew Markham,Daniel J. Twitchen,Ronald Hanson,Tim H. Taminiau +8 more
TL;DR: The actively error-corrected qubit is robust against errors and encoded quantum superposition states are preserved beyond the natural dephasing time of the best physical qubit in the encoding.