Winter 2008 Physics 315 / 225
... The intensity is proportional to the number of photons (E=hf for each photon) A photon is transmitted with some Probability (depends on initial photon state and on transmission axis) After a Polaroid sheet we know the polarization state of the photon ...
... The intensity is proportional to the number of photons (E=hf for each photon) A photon is transmitted with some Probability (depends on initial photon state and on transmission axis) After a Polaroid sheet we know the polarization state of the photon ...
Document
... Q1) Given that two events A1 and A2 are statistically independent, show that a) A1 is independent of A2 Q2)A production line manufacturer 5-gal(18.93-liter) gasoline cans to a volume tolerance of 5%. The probability of any one can being out of tolerance is 0.03. if four cans are selected at random: ...
... Q1) Given that two events A1 and A2 are statistically independent, show that a) A1 is independent of A2 Q2)A production line manufacturer 5-gal(18.93-liter) gasoline cans to a volume tolerance of 5%. The probability of any one can being out of tolerance is 0.03. if four cans are selected at random: ...
PPT - LSU Physics & Astronomy
... loss in order to maximize the extraction of the available phase information in an interferometer. Our approach optimizes over the entire available input Hilbert space with no constraints, other than fixed total initial photon number. ...
... loss in order to maximize the extraction of the available phase information in an interferometer. Our approach optimizes over the entire available input Hilbert space with no constraints, other than fixed total initial photon number. ...
Quantum computing
... Quantum computers and probability When the quantum computer gives you the result of computation, this result is correct only with certain probability Quantum algorithms are designed to "shift" the probability towards correct result Running the same algorithm sufficiently many times you get the corr ...
... Quantum computers and probability When the quantum computer gives you the result of computation, this result is correct only with certain probability Quantum algorithms are designed to "shift" the probability towards correct result Running the same algorithm sufficiently many times you get the corr ...
