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The dark exciton as a qubit

The dark exciton as a qubit research highlights PROTEIN PATTERNING layer on the patterned surface. The Now, Ido Schwartz and co-workers have researchers used the method to characterize demonstrated the suitability of the dark Complex cues the responses of cardiac cells to orthogonal exciton (electron–hole pair with parallel Nature Methods 12, 134–136 (2015) topographic and chemical cues. PP spins) for quantum applications. Following a pump–probe experiment, they not only FERROELECTRIC DOMAINS show that deterministic initialization is possible but they also extract the lower Swift walls bound values for its lifetime (1 μsec) and Adv. Mater. http://doi.org/f2x83m (2015) coherence time (0.1 μsec). Furthermore, Ferroelectric materials consist of domains the researchers managed to rotate the dark of aligned electric dipoles, separated by exciton eigenstate around the right-hand domain walls. When an electric field is circular polarization direction on the Bloch applied the various domains can reorient, sphere. Given its much longer coherence leading to a switching in net polarization time with respect to other charge carriers of the bulk material. This process requires in quantum dots, as well as the simplicity in the nucleation and growth of the domain initializing and resetting its value, the dark walls however, associated with which will exciton is shown to have potential as a http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Nature Materials Springer Journals

The dark exciton as a qubit

Maragkou, Maria
Nature Materials , Volume 14 (3) – Feb 20, 2015
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The dark exciton as a qubit

Abstract

research highlights PROTEIN PATTERNING layer on the patterned surface. The Now, Ido Schwartz and co-workers have researchers used the method to characterize demonstrated the suitability of the dark Complex cues the responses of cardiac cells to orthogonal exciton (electron–hole pair with parallel Nature Methods 12, 134–136 (2015) topographic and chemical cues. PP spins) for quantum applications. Following a pump–probe experiment, they not only FERROELECTRIC DOMAINS show...
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Publisher
Springer Journals
Copyright
Copyright © 2015 by Nature Publishing Group, a division of Macmillan Publishers Limited. All Rights Reserved.
Subject
Materials Science; Materials Science, general; Optical and Electronic Materials; Biomaterials; Nanotechnology; Condensed Matter Physics
ISSN
1476-1122
eISSN
1476-4660
DOI
10.1038/nmat4243
Publisher site
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Abstract

research highlights PROTEIN PATTERNING layer on the patterned surface. The Now, Ido Schwartz and co-workers have researchers used the method to characterize demonstrated the suitability of the dark Complex cues the responses of cardiac cells to orthogonal exciton (electron–hole pair with parallel Nature Methods 12, 134–136 (2015) topographic and chemical cues. PP spins) for quantum applications. Following a pump–probe experiment, they not only FERROELECTRIC DOMAINS show that deterministic initialization is possible but they also extract the lower Swift walls bound values for its lifetime (1 μsec) and Adv. Mater. http://doi.org/f2x83m (2015) coherence time (0.1 μsec). Furthermore, Ferroelectric materials consist of domains the researchers managed to rotate the dark of aligned electric dipoles, separated by exciton eigenstate around the right-hand domain walls. When an electric field is circular polarization direction on the Bloch applied the various domains can reorient, sphere. Given its much longer coherence leading to a switching in net polarization time with respect to other charge carriers of the bulk material. This process requires in quantum dots, as well as the simplicity in the nucleation and growth of the domain initializing and resetting its value, the dark walls however, associated with which will exciton is shown to have potential as a

Journal

Nature MaterialsSpringer Journals

Published: Feb 20, 2015

There are no references for this article.