M
Malte Schröder
Researcher at Dresden University of Technology
Publications - 53
Citations - 721
Malte Schröder is an academic researcher from Dresden University of Technology. The author has contributed to research in topics: Network topology & Computer science. The author has an hindex of 11, co-authored 46 publications receiving 464 citations. Previous affiliations of Malte Schröder include University of Göttingen & Max Planck Society.
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Journal ArticleDOI
Light-wave dynamic control of magnetism
Florian Siegrist,Florian Siegrist,J. A. Gessner,J. A. Gessner,Marcus Ossiander,Christian Denker,Yi-Ping Chang,Malte Schröder,Alexander Guggenmos,Alexander Guggenmos,Yang Cui,Jakob Walowski,Ulrike Martens,J. K. Dewhurst,Ulf Kleineberg,Ulf Kleineberg,Markus Münzenberg,Sangeeta Sharma,Martin Schultze,Martin Schultze +19 more
TL;DR: This study unveils light-field coherent control of spin dynamics and macroscopic magnetic moments in the initial non-dissipative temporal regime and establishes optical frequencies as the speed limit of future coherent spintronic applications, spin transistors and data storage media.
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Transient Uncoupling Induces Synchronization.
TL;DR: A scheme for synchronizing chaotic dynamical systems by transiently uncoupling them opens up the possibility to induce synchrony in (biological or technical) systems whose parameters are fixed and cannot be modified continuously.
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Microtransition Cascades to Percolation
TL;DR: The precursory microtransitions allow the class of intrinsically stochastic processes the possibility to use warning signals anticipating phase transitions in complex systems to target almost deterministically the location of the transition point to global connectivity.
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Crackling noise in fractional percolation
TL;DR: Fractional percolation is established, in which the coalescence of clusters that substantially differ in size is systematically suppressed and allows for crackling noise to be expressed as a result of the simple concept of fractionalPercolation.
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A universal order parameter for synchrony in networks of limit cycle oscillators
TL;DR: An alternative, universal order parameter is introduced that accurately tracks the degree of partial phase locking and synchronization, adapting the traditional definition to account for the network topology and its influence on the phase coherence of the oscillators.