Physics, asked by danisa2531, 11 months ago

Prove that in semiconductor, radiative recombination produces the emission of wavelength, λ (μm) =1.24/ Eg (eV).

Answers

Answered by michael79
7

Emission of wavelength

Explanation:

The energy of a photon (E) and the wavelength of the light (λ) are related inversely by the equation:

E=\frac{hc}{\lambda }                                 (1)

Where,

h = 6.626 × 10^{-34} joule·s  and c = 2.998 × 10^{8} m/s

which means hc= 1.99 ×10^{-25}  joules-m

in terms of ev

hc= (1.99 × 10^{-25}  joules-m) × (1ev/1.602 × 10^{-19} joules)

hence, hc= 1.24 × 10^{-6}  eV-m                                                  (2)          

where 1 eV is the energy required to raise an electron through 1 volt and its value is  equal to 1.602 × 10^{-19} J.

Also to get the value of hc in micro meters, we will multiply equation (2) by 10^{6}

hc = 1.24 × 10^{-6}  eV × (10^{6} µm) = 1.24 eV-µm                           (3)

Now, put equation (3) in (1)

E=\frac{1.24}{\lambda }

where energy is in eV and wavelength is in micro meters

or we can rewrite this relation as:

    \lambda (\mu m)=\frac{1.24}{E(eV)}

Similar questions