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Hydrogen Decoupling NMR Spectroscopy Higgs Boson Nuclear Magnetic Resonance Nuclei Particle 5g WOW SETI

August 25, 2012

Hydrogen Decoupling NMR Spectroscopy Higgs Boson Nuclear Magnetic Resonance Nuclei Particle 5g WOW SETI

3000K protons electrons neutral hydrogen decoupling light – higgs boson nuclei particle WOW SETI

3000K protons electrons neutral hydrogen decoupling light – higgs boson nuclei particle WOW SETI

quote:
When the temperature drops below about 3000 K, where a representative energy is kT = 0.26 eV, it is possible for protons to attract electrons and form neutral hydrogen atoms for a reasonable length of time. The high energy photons of electromagnetic radiation interact much less strongly with neutral atoms than they do with the superhot plasma of protons and electrons, so we say that the universe at this temperature became “transparent”.

source:

http://hyperphysics.phy-astr.gsu.edu/hbase/astro/wctransp.html

20 August 2012 333 am edt

My thoughts:

Hydrogen Abstraction key word to higgs boson particle to remove the main signal and find the fragments of a particle that will stay with mass so we can study it.

Nuclear magnetic resonance decoupling

Quote From Wikipedia, the free encyclopedia

Nuclear magnetic resonance decoupling (NMR decoupling for short) is a special method used in nuclear magnetic resonance (NMR) spectroscopy where a sample to be analyzed is irradiated at a certain frequency or frequency range to eliminate fully or partially the effect of coupling between certain nuclei.

NMR coupling refers to the effect of nuclei on each other in atoms within a couple of bonds distance of each other in molecules.

This effect causes NMR signals in a spectrum to be split into multiple peaks which are up to several hertz frequency from each other.
Decoupling fully or partially eliminates splitting of the signal between the nuclei irradiated and other nuclei such as the nuclei being analyzed in a certain spectrum.

NMR spectroscopy and sometimes decoupling can help determine structures of chemical compounds.

Formula Idea:
Particle + frequency range + eliminate + coupling + nuclei + NMR + coupling + atoms + bonds+ distance + molecules + *HIGGS SIGNAL* + NMR signal + spectrum + split + multiple + peaks + several hertz frequency + compare + each others

Decoupling + fully + partially + eliminate + splitting + signal + between+ nuceli + irradiate + analyze + other nuclei+ in spectrum + NMR + Spectroscopy + decoupling + determine + structures + chemical+ compounds

25 Aug 2012

My thoughts:
Based on the key words it looks like you have to take the Higgs boson particle use NMR Spectroscopy and decoupling techniques to determine the structure in the chemical compounds found in the two photons and other particles that may be unseen. It will stop the signal from splitting so you can analyze a particle in spectrum. (or something like that.)

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