Distance measurement by means of optical interferometry

AI Thread Summary
The discussion focuses on using optical interferometry, specifically Michelson interferometry, to measure distances to an object. The user has successfully obtained a confocal signal but is struggling to understand and process the interferometric signal, which is characterized by higher frequency and noise. There is confusion regarding the source of the interferometric signal and its expected frequency compared to the confocal signal. A colleague suggested processing the interferometric signal to achieve a sinusoidal output, but the user reports that their results do not resemble a sinusoidal waveform. The conversation highlights the challenges of extracting meaningful data from the interferometric signal in the given hardware setup.
ikatz
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Hi,

I have been assigned to a new task in my job where I have to investigate on measuring the distance to an object by means of optical interferometry (Michelson interferometry). I have been looking for info on the subject but have not been really lucky.

I have been able to obtain the confocal signal (mostly Gaussian curve) in the photodiode and with that I might be able to get the distance to the object, but what my bosses really want is to use the interferometric signal to get that distance instead of the confocal. The problem is that I don't understand where does that signal come from, since it has a higher frequency and is mostly noise, so I don't know how am I going to process it to obtain any interesting data from it.

Could somebody explain how should I process this signal or at least provide a link to useful info since I am running out of ideas :confused:

Thanks in advance!
 
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ikatz said:
Hi,

I have been assigned to a new task in my job where I have to investigate on measuring the distance to an object by means of optical interferometry (Michelson interferometry). I have been looking for info on the subject but have not been really lucky.

I have been able to obtain the confocal signal (mostly Gaussian curve) in the photodiode and with that I might be able to get the distance to the object, but what my bosses really want is to use the interferometric signal to get that distance instead of the confocal. The problem is that I don't understand where does that signal come from, since it has a higher frequency and is mostly noise, so I don't know how am I going to process it to obtain any interesting data from it.

Could somebody explain how should I process this signal or at least provide a link to useful info since I am running out of ideas :confused:

Thanks in advance!

AFAIK, you can only use laser interferometry for relative distance measurements (like changes in distance). HP used to make some of the instrumentation for that:

http://www.vaisala.com/files/HP_Laser_Interferometers.pdf

.
 
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Thanks for answering so soon. In my scenario the HW architecture is already built, it is similar to the Michelson Interferometer but instead of having a movable mirror we will eventually have an object.

So, depending on the distance to that object I will get a signal composed by the confocal signal and the interferometric signal, but I do not understand what is the source of the latter one, since I thought that it should have the same frequency the confocal signal has.

A workmate has told me that he thinks I should process the interferometric signal in order to obtain a senoidal signal, but my results show a signal that is hardly senoidal...
 

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