In the figure below the absorption coefficient as a function of the wavelength for several semiconductor materials is presented. Let's consider monochromatic light of photons with energy of Eph=1.55eV that incidents a film with thickness d. If we ignore possible reflection losses at the rear and front interfaces of the film, what thickness d (in μm) is required to achieve a light absorption of 90%?

Question

UPDATE: Since it was very difficult to accurately read off the absorption coefficient values from the graph above, we have chosen to provide you with these values. The absorption coefficients for the different semiconductor materials at α(800nm) are:

αGaAs=2∗104cm−1
αInP=4∗104cm−1
αGe=6∗104cm−1
αSi=1∗103cm−1.

The thickness d (in μm) required to achieve a light absorption of 90% is:

1) For GaAs

2) For InP

3) For Ge

4) For Si

Sason · Accepted Answer

1.1513 0.5756 0.383764 23.026 ;)

kv · Answer

I am also stuck at that question and can not solve it ... if you have the answer or at least some clue how can I solve it - please share!

a · Answer

users . encs. concordia. ca/~mojtaba/ ELEC425- assignment4- solutions . pdf edit the spaces

Anonymous · Answer

Can you please just give out the answers.. thanx!!

Anonymous · Answer

please help in this q?

insha · Answer

i am also stuck plz help

I.G. · Answer

I think 1.51, not 1.15

r k · Answer

1.1513 0.5756 0.383764 23.026