QUESTION 1 What is the hole quasi-Fermi level w.r.t. intrinsic level for silicon crystal at 300K doped with 8.21*10^17/cc Phosphorous atoms and illuminated with 5*10^18 photons/(cc*second), and a minority carrier lifetime of 7.78*10^-9 seconds. Three significant digits and fixed point notation.

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QUESTION 1
What is the hole quasi-Fermi level w.rt intrinsic level for silicon crystal at 300K doped with 8.21*10^17/cc Phosphorous atoms and
illuminated with 5*10^18 photons/(cc*second), and a minority carrier lifetime of 7.78*10^-9 seconds. Three significant digits and fixed
point notation.
QUESTION 2
What is the average distance in microns an electron can travel with a diffusion coefficient of 25 cm^2/s if the electron lifetime is 5.34
microseconds. Three significant digits and fixed point notation.
QUESTION 3
What is the resistivity in ohm*cm of silicon doped with 6.39*10^14 Arsenic atoms and 1.86*10^17 Aluminum atoms assuming the
electron and hole mobilities are 1500 and 500 cm^2/(V*s). Three significant digits and fixed point notation.
Transcribed Image Text:Question Completion Status: QUESTION 1 What is the hole quasi-Fermi level w.rt intrinsic level for silicon crystal at 300K doped with 8.21*10^17/cc Phosphorous atoms and illuminated with 5*10^18 photons/(cc*second), and a minority carrier lifetime of 7.78*10^-9 seconds. Three significant digits and fixed point notation. QUESTION 2 What is the average distance in microns an electron can travel with a diffusion coefficient of 25 cm^2/s if the electron lifetime is 5.34 microseconds. Three significant digits and fixed point notation. QUESTION 3 What is the resistivity in ohm*cm of silicon doped with 6.39*10^14 Arsenic atoms and 1.86*10^17 Aluminum atoms assuming the electron and hole mobilities are 1500 and 500 cm^2/(V*s). Three significant digits and fixed point notation.
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