A doped semiconductor has impurity levels `30meV` below the conduction band. Is the material `n`-type or `p`- type? Find the maximum wavelength of ight so that an electron of impurity level is just able to jump to into conduction band.

A doped semiconductor has impurity levels 20 meV below the conduction band. Is the material n-type or p-type? What is the wavelength of light so that the electron of impurity level is just able to jump into conduction band? Use h=6.63xx10^(-34)Js, c=3xx10^(8)m//s .

A doped semiconductor has impurity levels 32 meV below the conduction band. The semiconductor is -

A doped semiconductor has impurity levels 30meV bleow the conduction band,(a)Is the material m-type or p-type? (b)In a thermal collision,and amount kT of energy is given to the extra electron loosely bound to the impurity ion and this electron is just able to jump into the conduction band. Calculate the temperature T.

A doped semiconductor has impurity levels 40 me V below the conductor band. Is the material n-type or p-type? In a thermal collision, an amount kT of energy is given to the extra electron loosely bound to the impurity ion and this electron is just able to jump into the conduction band. Calculate the temperature T. Given k=8.62xx10^(-5) eV//K .

In a doped semiconductor, the impurity level is 40 meV above the valence band. The semicoductor is

An n-type semiconductor has impurity level 20 meV below the conduction band. In a thermal collision, transferble enegry is KT . The value of T for which electrons start to jump in conduction bond is :

In a semiconductor energy gap between the impurites level and conduction band is 1 me V is it an n type or p type of semiconductor

In an n-type semiconductor, the fermi level lies 0.3 eV below the conduction band at 300 K. If the temperature is increased to 330K, where does the new position of the Fermi level lie?

A p type semiconductor has acceptor level 30 mev above the valence band what will be the maximum wavelength of light that can create a hole