def christoph2007(): """ Creates a cell object with the following passive properties homogenously distributed Cm = 1 microF/cm**2 Rm = 164000 Ohms*cm**2 Ra = 194 Ohms*cm (Schmidt-Hieber et al., 2007) """ from CA3.morphology import ca3_15 cell = ca3_15() for sec in cell.allsec: sec.insert('pas') sec.cm = 1 # in microF/cm**2 sec.Ra = 194 # in Ohms*cm sec.g_pas = 1/164e3 # in Ohms*cm^2 return cell
def jonas1993(): """ Creates a cell object with the following passive properties homogenously distributed Cm = 0.683 microF/cm^2 Rm = 164000 Ohms*cm^2 Ra = 294 Ohms*cm just as described in Jonas et al., 1993 """ from CA3.morphology import ca3_15 cell = ca3_15() for sec in cell.allsec: sec.insert('pas') sec.cm = 0.683 # in microF/cm**2 sec.Ra = 294 # in Ohms*cm sec.g_pas = 1/164e3 # in Ohms*cm^2 return cell