Genady Posted October 7, 2023 Posted October 7, 2023 Let the direction |v〉 of polaroid B’s preferred axis be given as a function of θ, |v〉 = cosθ|→〉 + sinθ|↑〉 and suppose that the polaroids A and C remain horizontally and vertically polarized as shown. What fraction of photons reach the screen? Assume that each photon generated by the laser pointer has random polarization. My answer is 1/2*cos2θ*sin2θ. Any objections?
Sensei Posted October 7, 2023 Posted October 7, 2023 (edited) Shouldn't you give the angles of each polarizing filter independently, such as alpha, beta and gamma? Did you mean that A alpha = 0, then B "theta" (given by you), and then C gamma = 90? 50% of the photons will be after passing through filter A (and 50% of the photons will be reflected). Edited October 7, 2023 by Sensei
Genady Posted October 7, 2023 Author Posted October 7, 2023 (edited) 15 minutes ago, Sensei said: Shouldn't you give the angles of each polarizing filter independently, such as alpha, beta and gamma? Only the relative angles matter, don't they? A and C are orthogonal, and B is at the angle θ to A. 15 minutes ago, Sensei said: Did you mean that A alpha = 0, then B "theta" (given by you), and then C gamma = 90? Yes, this is what they mean, I am sure. Edited October 7, 2023 by Genady
Genady Posted October 8, 2023 Author Posted October 8, 2023 Sorry, I forgot to say where the exercise came from: Rieffel, Eleanor G.; Polak, Wolfgang H. Quantum Computing: A Gentle Introduction.
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