SILICON CARBIDE SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING SILICON CARBIDE SEMICONDUCTOR DEVICE

1. A silicon carbide semiconductor device, comprising:

• a drift layer of a first conductivity type formed over an entire front surface of a silicon carbide semiconductor substrate of the first conductivity type;
  
  a base layer of a second conductivity type formed over an entire surface layer of the drift layer;
  
  a first trench formed in a surface layer of the base layer;
  
  a second trench of a narrower width than the first trench, the second trench being formed in a bottom of the first trench and reaching the drift layer;
  
  source regions of the first conductivity type formed in the surface layer of the base layer, on sidewalls of the first trench, and on bottom portions of the first trench;
  
  an impurity region of the second conductivity type selectively formed in the surface layer of the base layer having the source regions formed therein, the impurity region reaching the base layer thereunder;
  
  a gate electrode embedded in the first trench and the second trench with a gate oxide film interposed between the gate electrode and the first and second trenches;
  
  an interlayer insulating film formed covering the gate electrode;
  
  a source electrode formed contacting the impurity region and the source region; and
  
  a drain electrode formed on a rear surface side of the silicon carbide semiconductor substrate,wherein a thickness of the base layer is set so that a concentration of ion species or point defects running along dislocations in the base layer is so low that regions surrounding the dislocations do not conduct current due to the ion species or the point defects.