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Quantum efficiency of a photodiode (ratio between the number of liberated electrons and the number of incident photons) is 0.75 at 830 nm. Given Plank’s constant h,the charge of an electronand the velocity of light in the photodiode .For an incident optical power of 100 mW at 830 nm, the photocurrent in μA is ___________. Correct answer is between '74.5,75.5'. Can you explain this answer? for GATE 2024 is part of GATE preparation. The Question and answers have been prepared
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Quantum efficiency of a photodiode (ratio between the number of liberated electrons and the number of incident photons) is 0.75 at 830 nm. Given Plank’s constant h,the charge of an electronand the velocity of light in the photodiode .For an incident optical power of 100 mW at 830 nm, the photocurrent in μA is ___________. Correct answer is between '74.5,75.5'. Can you explain this answer?, a detailed solution for Quantum efficiency of a photodiode (ratio between the number of liberated electrons and the number of incident photons) is 0.75 at 830 nm. Given Plank’s constant h,the charge of an electronand the velocity of light in the photodiode .For an incident optical power of 100 mW at 830 nm, the photocurrent in μA is ___________. Correct answer is between '74.5,75.5'. Can you explain this answer? has been provided alongside types of Quantum efficiency of a photodiode (ratio between the number of liberated electrons and the number of incident photons) is 0.75 at 830 nm. Given Plank’s constant h,the charge of an electronand the velocity of light in the photodiode .For an incident optical power of 100 mW at 830 nm, the photocurrent in μA is ___________. Correct answer is between '74.5,75.5'. Can you explain this answer? theory, EduRev gives you an
ample number of questions to practice Quantum efficiency of a photodiode (ratio between the number of liberated electrons and the number of incident photons) is 0.75 at 830 nm. Given Plank’s constant h,the charge of an electronand the velocity of light in the photodiode .For an incident optical power of 100 mW at 830 nm, the photocurrent in μA is ___________. Correct answer is between '74.5,75.5'. Can you explain this answer? tests, examples and also practice GATE tests.