Final answer:
The question pertains to the absorption of 550 nm light after passing through silicon, with factors such as wavelength and silicon thickness affecting absorption. Without specific absorption coefficients, a precise percentage cannot be given.
Step-by-step explanation:
The question asks about the percentage of light with a wavelength of 550 nm that gets absorbed after passing through a 300 µm thick silicon (Si) sheet. Light absorption in silicon depends on factors such as the wavelength of the light and the thickness of the silicon. Short-wavelength light, such as blue light, can penetrate deep into the silicon but is also likely to be absorbed near the surface. On the other hand, infrared photons with wavelengths greater than 1.1 µm pass through silicon without being absorbed, as their energy is below the band gap of silicon. The energy absorption and penetration depend on the photon distribution, material properties, and the wavelength of the incident light. Without specific absorption coefficients for silicon at the given wavelength, an exact numerical answer cannot be provided.