So far, all my questions placed in RG were related to certain GEFT/WPT issues presented in doi:10.13140/RG.2.1.1226.4165 (part I) and doi:10.13140/RG.2.1.4601.5209 (part II). So far, the intention of all my questions was to point out special GEFT/WPT issues presented in these workcopies, to motivate further theoretical developments based upon these issues, to motivate further technological developments based upon these issues, and to collect data I am needing for certain kinds of improvements. However, since some of these theoretical developments need a lot of time and money, I will hardly be able to tackle these. Moreover, since these technological developments need really big amounts of time and money, I will never be able to tackle these. Therefore, please now allow me to ask the question: Are there (university, Max-Planck ...) institutes interested
in developing at least these extensive issues in cooperation with me, in this specific question, aiming at institutes interested in extensions of the first wave-particle models which I have already presented in these workcopies, for instance, dealing with specific issues of spin physics/magnetic spin resonance, superconductivity physics, and quantum synergetics?
In this context, let me also point out that I am always restricting myself to GEFT/WPT energy balance equations, ignoring GEFT/WPT momentum (flow) equations, which I have collected in these workcopies in a general from, not adapted to actual applications. In particular, wanting to replace model assumptions by systematic calculations, their vector-algebraic form must be worked out. Among others, this then also should supply us with a systematic access to Feynman diagrams of complicated elementary particle processes, also enabling a systematic access to mode equations specifying synergetic aspects of quantum systems. However, this field of research needs a lot of time and money so that help is necessary.