I/f noise in systems showing stochastic resonance |
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| Authors: | László B. Kiss Zoltán Gingl Zsuzsanna Márton János Kertész Frank Moss Gabor Schmera Adi Bulsara |
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| Affiliation: | (1) Institute for Experimental Physics, JATE University, Dóm tér 9, H-6720 Szeged, Hungary;(2) Research Group on Laser Physics of the Hyngarian Academy of Sciences, Dóm tér 9, H-6720 Szeged, Hungary;(3) Institute for Technical Physics, MÜFI, Fóti út, H-1044 Budapest, Hungary;(4) Institute for Theoretical Physics, University of Cologne, D-5000 Koln, Germany;(5) Department of Physics, University of St. Louis at Missouri, 63121 St. Louis, MO;(6) NCCOSC-RDT & E Division, 92152 San Diego, CA |
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| Abstract: | Stochastic resonator systems with input and/or output 1/f noise have been studied. Disordered magnets/dielectrics serve as examples for the case of output 1/f noise with white noise (thermal excitation) at the input of the resonators. Due to the fluctuation-dissipation theorem, the output noise is related to the out-of-phase component of the periodic peak of the output spectrum. Spin glasses and ferromagnets serve as interesting examples of coupled stochastic resonators. A proper coupling can lead to an extremely large signal-to-noise ratio. As a model system, a l/f-noise-driven Schmitt trigger has been investigated experimentally to study stochastic resonance with input 1/f noise. Under proper conditions, we have found several new nonlinearity effects, such as peaks at even harmonics, holes at even harmonics, and 1/f noise also in the output spectrum. |
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| Keywords: | Stochastic resonance 1/f noise signal-to-noise ratio |
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