Can UV Light Be Converted into Visible Light?

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  • Thread starter Thread starter Jaykay1234
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Discussion Overview

The discussion revolves around the feasibility of converting ultraviolet (UV) light into visible light using a transparent medium, specifically focusing on the preservation of light linearity and the potential for practical applications such as glasses that visualize UV light. The conversation touches on theoretical and experimental aspects of light conversion, including comparisons with infrared (IR) light conversion.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested

Main Points Raised

  • One participant, Jaykay, questions the possibility of impregnating plastic with a compound to shift UV light into the visible spectrum while maintaining linearity, expressing curiosity about the energy dynamics involved.
  • Another participant mentions the existence of UV cameras and fluorescent markers that convert UV to visible light, but raises uncertainty about the linearity of these conversions.
  • A participant discusses the conversion of IR light to visible light, noting that it typically requires additional energy and involves converting two IR photons to produce one visible photon, while questioning the coherence of wavelength-shifting materials.
  • Another contribution suggests that if UV light is within a specific energy range, BBO crystals can be used for down-conversion, although this process is generally inefficient and may not preserve light direction effectively.
  • There is mention of modern engineered materials with defect structures that could enhance conversion efficiency, referencing research from 2010.

Areas of Agreement / Disagreement

Participants express a range of views on the feasibility and methods of converting UV light to visible light, with no consensus reached on the effectiveness or practicality of the proposed methods.

Contextual Notes

Participants highlight limitations related to the efficiency of conversion processes, the need for additional energy in certain conversions, and the challenges of maintaining light coherence and directionality.

Who May Find This Useful

This discussion may be of interest to those exploring photonics, materials science, and applications in UV light visualization technologies.

Jaykay1234
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Hi everyone,

Can anyone help me?

Would it be possible to impregnate a transparent piece of plastic with compound which would shift incident UV light (preferably, from a variety of wavelengths of UV light) into light in the visible spectrum, whilst preserving the light's linearity?

I have read a topic discussing the conversion of IR light to visible light and this seems counter-intuitive as IR light is of a lower energy to begin with. I would have thought that trying to convert IR to visible light you would require additional energy in the system somewhere.

But is it any more plausible if you start with photons which have higher energy than visible light (eg, UV-A, UV-B and UV-C), and convert to photons with lower energy, somewhere in the visible spectrum?

Could you not also just use a polarised coating to help maintain linear transmission of the light?

I'm keen to research this topic in greater detail to see if it's plausible to create glasses which enable the indirect visualisation of UV light, so if anyone could share their wisdom on the matter I'd be greatly appreciative.

Cheers,

Jaykay
 
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There are UV cameras available on the market, and you can also by fluorescent markers that turn UV into visible light. I am not too sure about the linearity of those, though.

http://en.wikipedia.org/wiki/Fluorescence
 
Jaykay1234 said:
I have read a topic discussing the conversion of IR light to visible light and this seems counter-intuitive as IR light is of a lower energy to begin with. I would have thought that trying to convert IR to visible light you would require additional energy in the system somewhere.
Those materials typically convert two IR photons to one visible photon.

There are many wavelength shifting materials, but I'm not sure if you can get that in a coherent way to preserve the light direction.
 
If the UV is in the correct energy range you can use BBO to down-convert ... but this is generally a very inefficient process. It does preserve total energy and momentum.

Modern engineered materials with certain defect structures can enhance the efficiency; this topic was being researched in 2010, the last time I looked into it.
 

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