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删除671字节 、 2022年3月29日 (二) 11:18
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where <math> V = V_{rest} - V_m </math> denotes the negative depolarization in mV.
 
where <math> V = V_{rest} - V_m </math> denotes the negative depolarization in mV.
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p_\infty and (1-p_\infty) are the steady state values for activation and inactivation, respectively, and are usually represented by Boltzmann equations as functions of V_m. In the original paper by Hodgkin and Huxley, the functions \alpha and \beta are given by
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\begin{array}{lll}
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<math>p_\infty</math>  和 <math>(1-p_\infty)</math>分别是激活和失活的稳态值,通常用 Boltzmann 方程表示为 <math>V_m</math>的函数。
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Hodgkin Huxley 的原始论文中,alpha 和 beta函数如下给出<math> \begin{array}{lll}
 
  \alpha_n(V_m) = \frac{0.01(10-V)}{\exp\big(\frac{10-V}{10}\big)-1} & \alpha_m(V_m) = \frac{0.1(25-V)}{\exp\big(\frac{25-V}{10}\big)-1} & \alpha_h(V_m) = 0.07\exp\bigg(-\frac{V}{20}\bigg)\\
 
  \alpha_n(V_m) = \frac{0.01(10-V)}{\exp\big(\frac{10-V}{10}\big)-1} & \alpha_m(V_m) = \frac{0.1(25-V)}{\exp\big(\frac{25-V}{10}\big)-1} & \alpha_h(V_m) = 0.07\exp\bigg(-\frac{V}{20}\bigg)\\
 
\beta_n(V_m) = 0.125\exp\bigg(-\frac{V}{80}\bigg) &  \beta_m(V_m) = 4\exp\bigg(-\frac{V}{18}\bigg) & \beta_h(V_m) = \frac{1}{\exp\big(\frac{30-V}{10}\big) + 1}
 
\beta_n(V_m) = 0.125\exp\bigg(-\frac{V}{80}\bigg) &  \beta_m(V_m) = 4\exp\bigg(-\frac{V}{18}\bigg) & \beta_h(V_m) = \frac{1}{\exp\big(\frac{30-V}{10}\big) + 1}
\end{array}  
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\end{array} </math>其中<math> V = V_{rest} - V_m </math> 表示mV 中的负去极化(???)
where  V = V_{rest} - V_m denotes the negative depolarization in mV.
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P _ infty 和(1-p _ infty)分别是激活和失活的稳态值,通常用 Boltzmann 方程表示为 v _ m 的函数。
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在 Hodgkin 和 Huxley 的原始论文中,alpha 和 beta函数如下给出
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begin { array }{ lll } alpha _ n (v _ m) = frac {0.01(10-V)}{ exp big (frac {10-V }{10} big)-1} & alpha _ m (v _ m) = frac {0.1(25-V)}{ exp big (frac {25-V }{10} big)-1} & alpha _ h (v _ m) = 0.07 expBigg (- frac { v } bigg) beta _ n (v _ m) = 0.125 exp bigg (- frac { v } bigg) & beta _ m (v _ m) = 4 exp bigg (- frac { v }{18} bigg) & beta _ h ()V _ m) = frac {1}{ exp big (frac {30-V }{10} big) + 1} end { array }
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其中...表示mV 中的负去极化(???)
      
While in many current software programs,<ref>Nelson ME (2005) [http://nelson.beckman.illinois.edu/courses/physl317/part1/Lec3_HHsection.pdf Electrophysiological Models In: Databasing the Brain: From Data to Knowledge.] (S. Koslow and S. Subramaniam, eds.) Wiley, New York, pp. 285–301</ref>
 
While in many current software programs,<ref>Nelson ME (2005) [http://nelson.beckman.illinois.edu/courses/physl317/part1/Lec3_HHsection.pdf Electrophysiological Models In: Databasing the Brain: From Data to Knowledge.] (S. Koslow and S. Subramaniam, eds.) Wiley, New York, pp. 285–301</ref>
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