Self-Organized Criticality in an Anisotropic Earthquake Model |
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Authors: | Bin-Quan Li Sheng-Jun Wang |
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Institution: | School of Physics and Information Technology, Shaanxi Normal University, Xi'an 710119, China |
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Abstract: | We have made an extensive numerical study of a modified model proposed by Olami,Feder,and Christensen to describe earthquake behavior.Two situations were considered in this paper.One situation is that the energy of the unstable site is redistributed to its nearest neighbors randomly not averagely and keeps itself to zero.The other situation is that the energy of the unstable site is redistributed to its nearest neighbors randomly and keeps some energy for itself instead of reset to zero.Different boundary conditions were considered as well.By analyzing the distribution of earthquake sizes,we found that self-organized criticality can be excited only in the conservative case or the approximate conservative case in the above situations.Some evidence indicated that the critical exponent of both above situations and the original OFC model tend to the same result in the conservative case.The only difference is that the avalanche size in the original model is bigger.This result may be closer to the real world,after all,every crust plate size is different. |
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Keywords: | self-organized criticality earthquake model power-law |
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