Determining Appropriate Focal Length

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Discussion Overview

The discussion centers around determining the appropriate focal length for a lens to be used with a laser diode. Participants explore the relationship between the focal length, the distance from the lens to the image, and the distance from the lens to the object, particularly in the context of a specific project involving laser light and optical components.

Discussion Character

  • Exploratory, Technical explanation, Debate/contested, Homework-related

Main Points Raised

  • One participant presents the equation 1/ƒ = 1/μ + 1/σ and assumes the object is infinitely far away, leading to the simplification 1/ƒ = 1/μ.
  • Another participant expresses confusion about the physical setup, questioning the placement of the object in relation to the laser and lens.
  • A participant clarifies that the "image" refers to the point of emission from the laser diode, which is then refracted by the lens.
  • A suggestion is made to refer to the laser's spec sheet to find the beam diameter and divergence angle to calculate the necessary distance for the focal length.
  • It is noted that the beam from a bare diode laser is elliptical and may have astigmatism, which could affect the calculations.

Areas of Agreement / Disagreement

Participants do not reach a consensus on the physical situation, with some expressing confusion about the definitions and placements of the object and image. Multiple viewpoints regarding the interpretation of the laser's emission and the necessary calculations remain present.

Contextual Notes

There are limitations regarding the assumptions made about the object distance and the nature of the laser beam, particularly concerning astigmatism and beam shape, which may affect the accuracy of the focal length determination.

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So I'm working on a project where we're deciding a new lens to use for our laser diode. I need to determine the appropriate focal length based on the equation: 1/ƒ = 1/μ + 1/σ where ƒ is our focal length, μ is the distance from the lens to image and σ is distance from lens to object. For the purposes of our project we've determined we can assume that our object is infinitely far away and thus we have 1/ƒ = 1/μ or our focal length should be the same as the distance from our lens to our image.

Now I just need some help finding that distance. I was looking on the schematic diagram for our laser diode and wanted to determine that distance. I imagined the distance from the "image" to the lens for a laser (as opposed to a camera) would be from the point of emission of the laser to the lens. I've attached a picture of this schematic, if anyone can help me find the distance σ I would truly appreciate it.

** The little distance indicator that I drew in pencil on the diagram is where I believed the distance σ would be. But there's no way to determine this distance from the info given.
 
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Sorry but I coulnd't understand the phisical situation.

You have a laser a lens and a plane where the image will be formed, right? Where should the object be?
 
Yes we have laser light coming out of a laser diode (what I interpret to be the "image" -- please correct me if I am wrong) which then passes through and gets refracted by a lens and which then travels through a crystal and through a beamsplitter into photo-detectors. Now we can assume the object that the laser is hitting is far enough away such that we can neglect the term associated with it. This then means the equation 1/ƒ = 1/σ tells us the appropriate focal length will be the length from the "image" (again, where the laser is emitted, I believe) to the lens.

I need to find that distance.
 
From the LASER spec sheet, look up the beam diameter and the beam divergence angle. From these, calculate where a point would have to be to match the listed values. Note that the beam from a bare diode laser is elliptical, not circular; i.e. there is a lot of astigmatism. Some, not all, prepackaged diode lasers have a built-in correction lens to yield a somewhat circular beam.
 

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