Q.2] A 40-km single-mode fiber has a dispersion parameter D = 10 ps/nm-km. An optical signal of bandwidth 10 GHz is launched into the fiber. Find the delay between the highest- and lowest-frequency components. The carrier wavelength = 1.55 µm. Ans: 32.033 ps.
Q.2] A 40-km single-mode fiber has a dispersion parameter D = 10 ps/nm-km. An optical signal of bandwidth 10 GHz is launched into the fiber. Find the delay between the highest- and lowest-frequency components. The carrier wavelength = 1.55 µm. Ans: 32.033 ps.
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![Q.2] A 40-km single-mode fiber has a dispersion parameter D = 10 ps/nm-km. An
optical signal of bandwidth 10 GHz is launched into the fiber. Find the delay
between the highest- and lowest-frequency components. The carrier wavelength
= 1.55 µm.
%3D
Ans: 32.033 ps.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc2328331-7a3a-4c98-bbf8-a320d751a2c8%2Fb0b39c37-32e3-4ef5-b030-99c3bc363813%2Fww5lkoj_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Q.2] A 40-km single-mode fiber has a dispersion parameter D = 10 ps/nm-km. An
optical signal of bandwidth 10 GHz is launched into the fiber. Find the delay
between the highest- and lowest-frequency components. The carrier wavelength
= 1.55 µm.
%3D
Ans: 32.033 ps.
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