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| There are 2 papers published in subject: > since this site started. | |||
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| 1. Temperature Sensitivity of Bushy Cells in Auditory Midbrain | |||
| Zeng Ting,Wang Jiafu,Kuang Shenbing | |||
Physics 04 January 2007
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| Show/Hide Abstract | Cite this paper︱Full-text: PDF (0 B) | |||
| Abstract:The temperature sensitivity of weak periodic signal detection has been studied via numerical simulations for bushy cells in auditory midbrain. The dependence of the spiking threshold of the signal upon its frequency and temperature could account for the temperature sensitivity. In the presence of the effect of frequency and temperature on the spiking threshold of the signal, our analyses reveal that there exists a temperature sensitivity range, and as the frequency of the signal decreasing, the sensitivity range is wider. These findings imply that there is a physiological temperature range which is benefit for the information processing in auditory system, and it processes the signal at lower frequency well in a wider temperature range than at higher frequency. | |||
| TO cite this article:Zeng Ting,Wang Jiafu,Kuang Shenbing. Temperature Sensitivity of Bushy Cells in Auditory Midbrain[OL].[ 4 January 2007] http://en.paper.edu.cn/en_releasepaper/content/10583 | |||
| 2. Computer simulations of two-dimensional melting with dipole-dipole interactions | |||
| S. Z. Lin,B. Zheng,S. Trimper | |||
| Physics 12 December 2005
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| Show/Hide Abstract | Cite this paper︱Full-text: PDF (0 B) | |||
| Abstract:We perform molecular dynamics and Monte Carlo simulations of two-dimensional melting with dipole-dipole interactions. Both static and dynamic behaviors are examined. In the isotropic liquid phase, the bond orientational correlation length ξ6 and susceptibility χ6 are measured, and the data are fitted to the theoretical ansatz. An algebraic decay is detected for both spatial and temporal bond orientational correlation functions in an intermediate temperature regime, and it provides an explicit evidence for the existence of the hexatic phase. From the finite-size scaling analysis of the global bond orientational order parameter, the disclination unbinding temperature Ti is estimated. In addition, from dynamic Monte Carlo simulations of the positional order parameter, we extract the critical exponents at the dislocation unbinding temperature Tm. All the results are in agreement with those from experiments and support the KTHNY theory. | |||
| TO cite this article:S. Z. Lin,B. Zheng,S. Trimper. Computer simulations of two-dimensional melting with dipole-dipole interactions[OL].[12 December 2005] http://en.paper.edu.cn/en_releasepaper/content/4273 | |||
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