On a Microscopic Representation of Space-Time IV

Abstract: We summarize some previous work on SU(4) describing hadron representations and transformations as well as its noncompact 'counterpart' SU$$(4) being the complex embedding of SL(2,$\mathbb{H}$). So after having related the 16-dim Dirac algebra to SU$$(4), on the one hand we have access to real, complex and quaternionic Lie group chains and their respective algebras, on the other hand it is of course possible to relate physical descriptions to the respective representations. With emphasis on the common maximal compact subgroup USp(4), we are led to projective geometry of real 3-space and various transfer principles which we use to extend previous work on the rank 3-algebras above. On real spaces, such considerations are governed by the groups SO($n$,$m$) with $n+m=6$. The central thread, however, focuses here on line and Complex geometry which finds its well-known counterparts in descriptions of electromagnetism and special relativity as well as - using transfer principles - in Dirac, gauge and quantum field theory. We discuss a simple picture where Complexe of second grade play the major and dominant r^{o}le to unify (real) projective geometry, complex representation theory and line/Complex representations in order to proceed to dynamics.