Heat And Calabi-Yau Interactions

Any molecule -- over time -- is going to tend to spontaneously vibrate, over a sequential series of group-related instantons.  When any respective given arbitrary molecule vibrates, such a general tense of a vibration, is going to tend to work to help to cause at least some of those electrons -- that work to comprise the atoms that have come together in so as to work to form the said molecule -- to jump back-and-forth energy levels, in so as to release photons, specifically speaking here, in so as to release infrared photons, over the so-stated sequential series of group-related instantons, in which such a molecule is to exist, over the course of a correlative Fourier-based transformation, in which the said molecule is to here be vibrating in some sort of Noether-Based Flow.  Such a respective molecule, may either be undergoing a highly knit tense of a Majorana-Weyl-Invariant-Mode, and/or in a loosely knit tense of a Majorana-Weyl-Invariant-Mode, and/or in any scalar amplitude of such a mode that may exist here in-between the two just mentioned relative extremes.  As the so-stated molecule is to vibrate at its internally based reference frame, it is to work to cause in this case -- the said back-and-forth dropping of some of those electrons that work to help in the physical composition of the said molecule.  As the so-eluded-to photons are to here be released by the Ward-Caucy-based bounds of the said molecule -- the very Fourier-based activity of the oscillation of the said molecule, will then tend to work to re-scatter the relatively just formed photons of light, -- in so as to work to help in the formation of the correlative heat or infrared-based photons.  Such a scattering of light that works to help at forming infrared photons, is a classic example of a Calabi-Yau interaction.  Mass-Bearing superstrings of discrete energy permittivity, tend to be Yau-Exact, and therefore, such strings, when interacting with photons, work to form Calabi-Yau interactions.  This is part of as to why mass-bearing superstrings of discrete energy permittivity, tend to exist as eigenstates of what may be called of here as Calabi-Yau manifolds.  I distinguish such Calabi-based states, from other of such multidimensional Ward-Caucy-based fields -- because only mass-bearing superstrings of discrete energy permittivity, that are to move in as many spatial dimensions as the number of spatial derivatives that these are changing in, tend to bear homotopic torsional eigenindices -- that simultaneously bend in a hermitian-based manner, in all of these said spatial dimensions, that such correlative so-eluded-to superstrings are moving through, over time.  I will continue with the suspense later!  To Be Continued!  Sincerely, Samuel David Roach.