A hypothetical laser operating at 632 nm has a output of powe 1.0mW witha 1 mm beam liameter. If the energy density for this system is u(v) = 5.33 x 10-12 J–s/m³ fine the following (a) The ratio of stimulated emmission to spontaneous radiation. (b) The effective blackbody temperature of the system. %3D
A hypothetical laser operating at 632 nm has a output of powe 1.0mW witha 1 mm beam liameter. If the energy density for this system is u(v) = 5.33 x 10-12 J–s/m³ fine the following (a) The ratio of stimulated emmission to spontaneous radiation. (b) The effective blackbody temperature of the system. %3D
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![A hypothetical laser operating at 632 nm has a output of powe 1.0mW witha 1 mm beam
diameter. If the energy density for this system is u(v) = 5.33× 10-12 J – s/m³ fine the following
(a) The ratio of stimulated emmission to spontaneous radiation. (b) The effective blackbody
temperature of the system.
%3D](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F646bbe68-07c0-4617-903d-5d66de13288d%2Fb308ddbc-896e-494e-9a0a-9c1c842a6cfb%2Fyfnzqr6_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A hypothetical laser operating at 632 nm has a output of powe 1.0mW witha 1 mm beam
diameter. If the energy density for this system is u(v) = 5.33× 10-12 J – s/m³ fine the following
(a) The ratio of stimulated emmission to spontaneous radiation. (b) The effective blackbody
temperature of the system.
%3D
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