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"lossless" optical waveguide - loss floor in glass media

Subject: "lossless" optical waveguide - loss floor in glass media
From: punks at tfwno.gf (Punk)
Date: Fri, 13 Sep 2019 17:34:43 -0300
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References: <dLgtVzcUeixvXogxbgGtv3EoecU1m9vli6tEY-nM_ohBz8114xdXJhGEXPeCqOzMqC4QqpMGw5Ut0dmbQrQFkmR5ISlBnChxcTr_izbkuUU=@protonmail.com> <[email protected]> <FjFj_a485RCno6pBZ_EE3Cb2kKOC5QjBWZtjJfpBEgeHjZ9ZlmMMnxXFAC-6tj7SFeOtlwKDJY6lTpQTssfA9jiA7RwD9f9CdsWJfBmiPsA=@protonmail.com>

On Thu, 12 Sep 2019 16:46:27 +0000
coderman <coderman at protonmail.com> wrote:

> Geballe and Hull2found that the thermal conductivity of germanium enriched to96%74Ge is approximately three times higher at the maximum than that of germanium with the natural isotopic composition. 

	So it's a well known fact that isotope mixes have an influence on transmission of energy. Which makes any sort of patent on this stuff even more ridiculous and criminal.

References:
- "lossless" optical waveguide - loss floor in glass media
  - From: coderman at protonmail.com (coderman)
- "lossless" optical waveguide - loss floor in glass media
  - From: jdb10987 at yahoo.com (jim bell)
- "lossless" optical waveguide - loss floor in glass media
  - From: coderman at protonmail.com (coderman)

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