Answer:
The position of intrinsic energy level (Ei) for intrinsic Ge at 300 K is at 0.024 eV above the middle band gap.
Explanation:
We know that
Fermi level of intrinsic semiconductor given as
[tex]E_i=\dfrac{E_c+E_v}{2}-\dfrac{KT}{2}\ ln\left(\dfrac{m_e}{m_p}\right)^{3/2}[/tex]
KT = average thermal energy at 300 K = 0.026 eV
[tex]\dfrac{E_c+E_v}{2}-E_i=\dfrac{KT}{2}\ ln\left(\dfrac{m_e}{m_p}\right)^{3/2}[/tex]
Now by putting the values
[tex]\dfrac{E_c+E_v}{2}-E_i=\dfrac{KT}{2}\ ln\left(\dfrac{m_e}{m_p}\right)^{3/2}[/tex]
[tex]\dfrac{E_c+E_v}{2}-E_i=\dfrac{0.026}{2}\ ln\left(\dfrac{0.041m_0}{0.28m_0}\right)^{3/2}[/tex]
[tex]\dfrac{E_c+E_v}{2}-E_i=-0.024[/tex]
[tex]E_i=\dfrac{E_c+E_v}{2}+0.024[/tex]
So the position of intrinsic energy level (Ei) for intrinsic Ge at 300 K is at 0.024 eV above the middle band gap.
