Forbidden energy gap of Ge is `0.75eV`, maximum wave length of incident radiation for producing electron-gole pair in germanium semiconductor is

The forbidden energy gap in Ge is 0.72 eV , given hc = 12440 eVÅ - The maximum wavelength of radiation that will generate electron hole pair is

calculate the maximum wavelength of electromagentic radioation to create pair in germanium Energy band gap of 0.72 eV

The forbidden energy gap of germanium is 0.72eV. What do you understand by it?

For a photodiode, the forbidden energy gap (E_g) of the material used is 2.8 eV and wavelength of radiations (lambda) incident on it is 5780 A. Then the emission of electrons is possible when incident radiation have.

For a semiconductor of band energy gap 1.5eV , calculate the wave-length of the emitted radiation when a conduction hand electron combines with a valence band hole. Given Planck's constat 6.6xx10^(-34)Js

Forbidden energy gap of a silicon semiconductor is 1.12 eV. In order to generate electron-hole pairs in it, the maximum wavelength of the incident photons will be -

The energy gap of germanium is 1.28 eV. What is the maximum wave length at which germanium will begin absorbing energy.

In a photo electric set up the radiation from Balmer series of hydrogen atoms are Incident on a metal of work function 2 eV. Find wavelength of incident radiations lying between 450 nm to 700 nm. Find the maximum kinetic energy of the photoelectron emitted (hc1242 eV nm).

find the maximum wavelength of electromagnetic radiation which can create a hole-electron pair in germanium.The band gad in germanium os 0.65eV.