tag:blogger.com,1999:blog-6412057662325197004.post6848517037835641987..comments2024-01-24T10:10:00.885+01:00Comments on FRACTAL ECONOMICS: Augmenting Infrared Blackbody Radiation Theory with Raman SpectrometryBlair Macdonaldhttp://www.blogger.com/profile/05795107163513936768noreply@blogger.comBlogger2125tag:blogger.com,1999:blog-6412057662325197004.post-577235577242471612020-11-02T10:40:26.554+01:002020-11-02T10:40:26.554+01:00Hi Henry, sorry for the delay in response. I have ...Hi Henry, sorry for the delay in response. I have thought long and hard over this and have settled with at least the N2 CO2 laser shows N2 absorbs where it is assumed in the atmosphere not to. I have also found it works for photons too. I am drawing up an experiment to test all this, but I don't think it needs to be colisions, especially when we know these gases all have very low conductivity values and that all matter radiates. Cheers, BlairBlair Macdonaldhttps://www.blogger.com/profile/05795107163513936768noreply@blogger.comtag:blogger.com,1999:blog-6412057662325197004.post-62853938266393562682020-02-14T21:48:12.515+01:002020-02-14T21:48:12.515+01:00I am very impressed with your "discovery"...I am very impressed with your "discovery" As I argue it out with people who seem to know more than me I was using the N2-CO2 laser argument but found a wikipedia article on the Carbon Dioxide laser that explains the "N2 collisionally de-excites by transferring its vibrational mode energy to the CO2 molecule, causing the carbon dioxide to excite to its {v3(1)} (asymmetric stretch) vibrational mode quantum state. The CO<br />2 then radiatively emits at either 10.6 μm"<br /><br />This appears to conflict with your interpretation.<br /><br />Where do I go from here?henry matusekhttps://www.blogger.com/profile/08124552530157831184noreply@blogger.com