Undergraduate Laboratories Using Correlated Photons: Experiments on the Fundamentals of Quantum Physics
... the interferometer vertically polarized. The predicted probability is P = 1/2, independent of the arm-length difference. There is no interference. This is because the paths are now distinguishable. The circles in Figure 3 represent our measurements for this case. We note that we did not measure the ...
... the interferometer vertically polarized. The predicted probability is P = 1/2, independent of the arm-length difference. There is no interference. This is because the paths are now distinguishable. The circles in Figure 3 represent our measurements for this case. We note that we did not measure the ...
Quantum Teleportation
... transmitted to the receiving location and used to construct the replica, not necessarily from the actual material of the original, but perhaps from atoms of the same kinds, arranged in exactly the same pattern as the original. A teleportation machine would be like a fax machine, except that it would ...
... transmitted to the receiving location and used to construct the replica, not necessarily from the actual material of the original, but perhaps from atoms of the same kinds, arranged in exactly the same pattern as the original. A teleportation machine would be like a fax machine, except that it would ...
1.1 What has to be explained by Quantum mechanics?
... Only reasonable for Fermions following the Pauli principle! But ”free” and ”occupied” states within a band, sizes of band gaps, etc. classify metals, semiconductors, and insulators. • Why, in contrast, must photons be Bosons?!? (One single QM state macroscopically measurable) • What is: Schrödinger ...
... Only reasonable for Fermions following the Pauli principle! But ”free” and ”occupied” states within a band, sizes of band gaps, etc. classify metals, semiconductors, and insulators. • Why, in contrast, must photons be Bosons?!? (One single QM state macroscopically measurable) • What is: Schrödinger ...
Thinking Inside The Box: some experimental measurements in
... performing the QM calculation (see A&V). ...
... performing the QM calculation (see A&V). ...
powerpoint slides
... then passed through one at +45. What are the chances that the photon will be able to pass a third? a) 0% if it is vertical and 100% if it is horizontal b) 100% if it is vertical and 0% if it is horizontal c) 50% if it is vertical and 50% if it is horizontal d) 100% if it is vertical and 100% if it i ...
... then passed through one at +45. What are the chances that the photon will be able to pass a third? a) 0% if it is vertical and 100% if it is horizontal b) 100% if it is vertical and 0% if it is horizontal c) 50% if it is vertical and 50% if it is horizontal d) 100% if it is vertical and 100% if it i ...
Synopsis
... Don’t try to work out the momentum of a high speed particle and hence its de-Broglie wavelength using its rest mass. Mas increase significantly as the speed of the particle approaches the speed of light! ...
... Don’t try to work out the momentum of a high speed particle and hence its de-Broglie wavelength using its rest mass. Mas increase significantly as the speed of the particle approaches the speed of light! ...
Quantum Cryptography
... • He/she cannot reproduce the proton with the same state as quantum mechanics does not allow him/her to acquire sharp values of two non-commuting observables (rectilinear and diagonal). ...
... • He/she cannot reproduce the proton with the same state as quantum mechanics does not allow him/her to acquire sharp values of two non-commuting observables (rectilinear and diagonal). ...
