Optical Question: HeNe Beam Through Potassium Permanganate

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The discussion focuses on the transmission of a HeNe laser beam through a 1:1 solution of 40% HF and 7% potassium permanganate, which is noted for its dark purple color that limits visible light penetration. The user is uncertain about how much of the laser beam reaches the sample at the bottom of the solution and is considering switching to sodium permanganate for a higher concentration, despite its dark red color. The importance of measuring "optical density" is highlighted as a key factor in determining beam transmission. There is a suggestion to explore methods for measuring optical density, although specific techniques are not provided. Overall, the user seeks advice on optimizing laser illumination for their application.
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I am shining a HeNe beam into a 1:1 solution of 40% HF and 7% potassium permanganate. Potassium permenganate is very dark purple (cannot see visible light throught it). I am shining the HeNe through about 2 millimeters depth of this solution. I was wondering how much of the beam is actually getting through and hitting my sample at the bottom, or if the affects would just be neglegible. I am considering using sodium permanganate because I need a higher concentration, however, a solution of sodium permanganate will be dark red, though I don't know how dark yet because I have not ordered any. I can't dilute the potassium permanganate without lessening its effects. Even if I were to dilute it, the purple color would not decrease enough anyway. Please give me any tips you can. thank you.
 
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It's not clear what you are doing- what is the laser illumination for?

"Optical density" is what you are looking for: A quick search didn't turn anything up, but you can measure it reasonably easily.
 
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