The discussion revolves around the existence and implications of "one photon at a time" edge diffraction experiments, particularly focusing on the role of photon polarization in interference patterns. Participants explore theoretical and experimental aspects of single photon behavior in relation to diffraction and polarization.
Participants express differing views on the existence of "one photon at a time" edge diffraction experiments and the role of polarization in these contexts. No consensus is reached regarding the effects of polarization on diffraction or the nature of the patterns observed in the shadow region.
Participants reference various experimental setups and theoretical frameworks, but there are limitations in the discussion regarding the specific conditions required for experiments and the assumptions about photon behavior in different scenarios.
I don't think there has been.dlgoff said:Have there been any "one photon at a time" edge diffraction experiments? And does polarization of the photons have any effect on the interference patterns? Can you even consider polarization of single photons?
light polarization is involved only if you try to execute the experiment with two sources normally polarized. In such a case you can't see any fringe for the lack of interference conditions.dlgoff said:When doing the double slit experiment, does polarization have any effect?
Regards
I don't think that the photon's polarization plays a role. At least in calculations I've seen, the polarization doesn't play a role.dlgoff said:I understand that polarization wouldn't matter for one photon to interfer with itself, but I'm wondering if the orientation of the e-field relative to the slits(or edge) makes any difference.
It is possible to know the orientation of a single photon when you measure it. You could for example put a "horizontal" polarizer in front of the double slit and make sure that only "horizontal" polarized photons pass through the double slit.dlgoff said:I quess you have no way of knowing the orentation for a single photon?
What exactly do you mean with edge?dlgoff said:Have there been any "one photon at a time" edge diffraction experiments?
Although you don't see any bands and only a smearing, I think it's an interference effect that let's the photons "enter the shadow side", though I can't give you any reference for it. The photons interfere with themselves. (If I remember correctly I've seen bands for the razor edge diffraction, but that doesn't matter.)dlgoff said:What I've been wondering if this edge type of one photon at a time experiment has been done. The pattern on the light side of the screen should be what you would expect. But what would be the explanation for the photons that manage to get to the shadow side on the screen? Do these photons interfer with each other or do they just arrive there? i.e. from what patterns I've seen, on the dark side you just see a "smearing" of brightness not bands.
DaTario said:Let me add another interesting configuration that I have in mind.
Suppose you have a sharp edge (half plane x=0, y < 0 and z real). Now consider another half plane located according to the rules (x = 10, y > 0, z real).
Can you see that, looking at this half planes from the view point, for example, (-10, 0, 0) you will see something like a slit ? But there is no slit, but two sharp edges in series.
So, what pattern will arise if you send photons one at a time, along the x direction (say, from negative x to positive x) ?
@DaTario and dlgoff:dlgoff said:And what would happen if in the double slit experiment you placed a double slit in place of the detection screen?
Now this is what I'm looking for. After encountering the edge, do the photons' in the "shadow area" remain in the same orienatation (polarization)?Edgardo said:I've found this website that shows an experimental setup for the "knife edge diffraction".
Although you don't see any bands and only a smearing, I think it's an interference effect that let's the photons "enter the shadow side", though I can't give you any reference for it.
dlgoff said:Have there been any "one photon at a time" edge diffraction experiments? And does polarization of the photons have any effect on the interference patterns? Can you even consider polarization of single photons?
Thanks
Don
dlgoff said:Do you have the link handy? I'd like to see what they say about the plastic foil.
Yes. But has there ever been 1-photon-at-a-time experiment by shooting photons at a sharp edge? Not slits or beam splitters. I know what the pattern should look like. I'm just curious if its been done.yosofun said:hi, there have been 1-photon-at-a-time interference experiments.
by 1 photon-at-a-time, i mean an antibunched photon source, as in P. Grangier, G. Roger and A. Aspect. \emph{Europhys. Lett.}, \textbf{1} (1986), 173.
since antibunched photons do NOT display interference effects, one can get them to display wave effects again by putting them through a mach-zehnder interferometer, for example.