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Molecular Nanoscience: Research Team
Molecular Nanoscience: Research Team
Rare-earth quantum magnets
Quantum computers utilize the superposition principle of quantum objects: the property of being in a combination of different states simultaneously. They promise groundbreaking capabilities due to their inherent exponential scaling and are attracting attention across many fields of physics and beyond. Several routes are pursued to realize a universal quantum computer, and here our current scheme is based on rare-earth ions doped in crystals.
Archive (former LMN)
Publications
Group Leader "Molecular Nanoscience"
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LMN Staff
LNS Publications
Anomalous Magnetic Excitations of Cooperative Tetrahedral Spin Clusters
Prsa K, Ronnow HM, Zaharko O, Christensen NB, Jensen J, Chang J, Streule S, Jimenez-Ruiz M, Berger H, Prester M, Mesot J
PHYSICAL REVIEW LETTERS
102,
177202
(2009).
Anomalous asymmetry in the Fermi surface of the high-temperature superconductor YBa2Cu4O8 revealed by angle-resolved photoemission spectroscopy
LNS Publications
4D-CT RECONSTRUCTION WITH UNIFIED SPATIAL-TEMPORAL PATCH-BASED REGULARIZATION
Kazantsev Daniil, Thompson William M, Lionheart William R B, Van Eyndhoven Geert, Kaestner Anders P, Dobson Katherine J, Withers Philip J, Lee Peter D
Inverse Problems and Imaging
9,
447-467
(2015).
DOI: 10.3934/ipi.2015.9.447
A general and Eu specific perspective on lattice dynamics in pyrochlore and defect fluorite (Eu1-xNdx)2Zr2O7
Klobes B, Finkeldei S, Brandt F, Bosbach D, Bessas D, Embs JP, Hermann RP