First order fringes being reflected back to the 0 order

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When a laser passes through a diffraction grating and reflects first-order fringes back to the central point, a second diffraction pattern can indeed form within the bright spot. The angle of reflection affects the resulting fringe pattern, and the equation d*sin(theta) = m(lambda) can still apply, with d representing the distance between the mirrors. This setup resembles a double-slit experiment, where the distance between light sources and the angle of incidence play crucial roles in fringe formation. The inner rays travel shorter distances than the outer rays, leading to a stripe pattern. Overall, the experiment's success hinges on precise alignment and understanding of interference principles.
cseanm
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I heard that if you put a laser through a diffraction grating, and then reflect the first order fringes back to the middle point you will create a second diffraction pattern within the bright spot you are creating. I have been asked to try to test this and would like to know whether or not it is true before spending time trying to get the experiment to work correctly (I briefly tried and could not see any diffraction pattern whatsoever).

Thanks!
 
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The reflected beam is coming in at an angle, so I think there should be fringes.
 
So, if the mirrors were 5cm apart would the equation d*sin(theta) = m(lambda) still work for the new fringes created? With d now being 5cm?

ie, would it would turn into something similar to a double slit experiment, just with light sources quite far apart and distance between the fringes extremely small?
 
The inner rays have a shorter distance then the outer ones, so you should get a stripe pattern. The result will differ a bit from the double slit I think, because the distance from the source to the mirror is also relevant. If you split a beam in two parts and let one beam interfere with the other beam at an angle this will always produce stripes.
 
Thread 'Simple math model for a Particle Image Velocimetry system'

Thread 'Simple math model for a Particle Image Velocimetry system'

Hello togehter, I am new to this forum and hope this post followed all the guidelines here (I tried to summarized my issue as clean as possible, two pictures are attached). I would appreciate every help: I am doing research on a Particle Image Velocimetry (PIV) system. For this I want to set a simple math model for the system. I hope you can help me out. Regarding this I have 2 main Questions. 1. I am trying to find a math model which is describing what is happening in a simple Particle...
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