Standard
Shielding noises from spins. /
Cao, Yameng; Bennett, Anthony J.; Ellis, David et al.
2016. Paper presented at Solid State Quantum Photonics 2016, Sheffield, United Kingdom.
Research output: Contribution to conference - Without ISBN/ISSN › Conference paper
Harvard
Cao, Y, Bennett, AJ, Ellis, D, Farrer, I, Ritchie, DA, Shields, AJ
, Noori, Y, Roberts, J, Woodhead, C & Young, RJ 2016, '
Shielding noises from spins', Paper presented at Solid State Quantum Photonics 2016, Sheffield, United Kingdom,
22/03/16 -
22/03/16.
APA
Cao, Y., Bennett, A. J., Ellis, D., Farrer, I., Ritchie, D. A., Shields, A. J.
, Noori, Y., Roberts, J., Woodhead, C., & Young, R. J. (2016).
Shielding noises from spins. Paper presented at Solid State Quantum Photonics 2016, Sheffield, United Kingdom.
Vancouver
Cao Y, Bennett AJ, Ellis D, Farrer I, Ritchie DA, Shields AJ et al..
Shielding noises from spins. 2016. Paper presented at Solid State Quantum Photonics 2016, Sheffield, United Kingdom.
Author
Bibtex
@conference{633f14b56cb64da6880aeefb66fe67c7,
title = "Shielding noises from spins",
abstract = "Electrons in InAs/GaAs quantum dots are strong candidates for qubits due to quantum confinement of the spin ½ system. However, electrons couple with nearby nuclear spins and the fluctuating electrostatic environment, these impose an undesired bottleneck on the performance of a quantum spin device.We show that the fluctuating charge and spin environment may be circumvented to an extent. Compared to InAs/GaAs quantum dots, two-dimensional materials may be used to minimise nuclear spin noise; combined with careful sample design a low-decoherence platform is envisioned. ",
author = "Yameng Cao and Bennett, {Anthony J.} and David Ellis and Ian Farrer and Ritchie, {David A.} and Shields, {Andrew J.} and Yasir Noori and Jonny Roberts and Christopher Woodhead and Young, {Robert James}",
year = "2016",
month = mar,
day = "22",
language = "English",
note = "Solid State Quantum Photonics 2016 : Quantum Dots, 2D Materials, Color Centres ; Conference date: 22-03-2016 Through 22-03-2016",
url = "https://ldsd.group.shef.ac.uk/solid-state-quantum-photonics-2016/",
}
RIS
TY - CONF
T1 - Shielding noises from spins
AU - Cao, Yameng
AU - Bennett, Anthony J.
AU - Ellis, David
AU - Farrer, Ian
AU - Ritchie, David A.
AU - Shields, Andrew J.
AU - Noori, Yasir
AU - Roberts, Jonny
AU - Woodhead, Christopher
AU - Young, Robert James
PY - 2016/3/22
Y1 - 2016/3/22
N2 - Electrons in InAs/GaAs quantum dots are strong candidates for qubits due to quantum confinement of the spin ½ system. However, electrons couple with nearby nuclear spins and the fluctuating electrostatic environment, these impose an undesired bottleneck on the performance of a quantum spin device.We show that the fluctuating charge and spin environment may be circumvented to an extent. Compared to InAs/GaAs quantum dots, two-dimensional materials may be used to minimise nuclear spin noise; combined with careful sample design a low-decoherence platform is envisioned.
AB - Electrons in InAs/GaAs quantum dots are strong candidates for qubits due to quantum confinement of the spin ½ system. However, electrons couple with nearby nuclear spins and the fluctuating electrostatic environment, these impose an undesired bottleneck on the performance of a quantum spin device.We show that the fluctuating charge and spin environment may be circumvented to an extent. Compared to InAs/GaAs quantum dots, two-dimensional materials may be used to minimise nuclear spin noise; combined with careful sample design a low-decoherence platform is envisioned.
M3 - Conference paper
T2 - Solid State Quantum Photonics 2016
Y2 - 22 March 2016 through 22 March 2016
ER -
