Journal
NATURE
Volume 458, Issue 7239, Pages 740-742Publisher
NATURE PUBLISHING GROUP
DOI: 10.1038/nature07874
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Funding
- KOSEF [R0A-2007-000-20032-0, R01-2007-000-20281-0, R11-2000-071, R11-2008-095-01000-0]
- Seoul Science Fellowship
- KIST
- MEST
- National Research Foundation of Korea [R0A-2007-000-20032-0, R01-2007-000-20281-0] Funding Source: Korea Institute of Science & Technology Information (KISTI), National Science & Technology Information Service (NTIS)
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Despite the complexity and diversity of nature, there exists universality in the form of critical scaling laws among various dissimilar systems and processes such as stock markets(1), earthquakes(2), crackling noise(3), lung inflation(4) and vortices in superconductors(5). This universality is mainly independent of the microscopic details, depending only on the symmetry and dimension of the system. Exploring how universality is affected by the system dimensions is an important unresolved problem. Here we demonstrate experimentally that universality persists even at a dimensionality crossover in ferromagnetic nanowires. As the wire width decreases, the magnetic domain wall dynamics changes from elastic creep(6-9) in two dimensions to a particle-like stochastic behaviour(10) in one dimension. Applying finite-size scaling, we find that all our experimental data in one and two dimensions (including the crossover regime) collapse onto a single curve, signalling universality at the criticality transition. The crossover to the one-dimensional regime occurs at a few hundred nanometres, corresponding to the integration scale for modern nanodevices.
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