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Exercise 3: A fault occurs in an optical link that has a total length of 205...
Photonics and Optical Revision Sheet 1 1. Caculate the photon energy in eV for a wavelength of 1....
Photonics and Optical Revision Sheet 1 1. Caculate the photon energy in eV for a wavelength of 1.55 um 2, A 1.55 μm digital communications system operating at 4 GBits/s receives an average power of -24 dBm at the detector. On the assumption that 1 and 0 bits are equally likely to occur how many photons are received within each 1 bit? 3. A1.3 um digital communications system operating at 3 GBits/s receives an average power of -29 dBm at...
plz solve Exercise 13.1 and you might need Example 13.1 that is provided. Exercise 13.1 In Example 13.1, assume the pro...
plz solve Exercise 13.1 and you might need Example 13.1 that is
provided.
Exercise 13.1 In Example 13.1, assume the propagation is from material (2) into material (1) and calculate: (a) The reflection and transmission coefficients at the interface. (b) The amplitude of the electric and magnetic field intensities at a distance 1 km from the interface in material (1) assuming the amplitude of the incident electric field intensity in material (2) at the interface equals E2. Use the same...
Photonics and Optical Revision Sheet 1 1. Caculate the photon energy in eV for a wavelength of 1.55 um 2, A 1.55 μm digital communications system operating at 4 GBits/s receives an average power of -24 dBm at the detector. On the assumption that 1 and 0 bits are equally likely to occur how many photons are received within each 1 bit? 3. A1.3 um digital communications system operating at 3 GBits/s receives an average power of -29 dBm at...
plz solve Exercise 13.1 and you might need Example 13.1 that is
provided.
Exercise 13.1 In Example 13.1, assume the propagation is from material (2) into material (1) and calculate: (a) The reflection and transmission coefficients at the interface. (b) The amplitude of the electric and magnetic field intensities at a distance 1 km from the interface in material (1) assuming the amplitude of the incident electric field intensity in material (2) at the interface equals E2. Use the same...
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