We will start the course by describing its goals:
- Model the Rotating 4D Deformation Potential Double Well from the Known Mass Spectrum
- Model Collisional Excitation processes to explain collisional particle creation from nuclear scattering data.
- Develop algorithms for Hypergeometrical Universe Quantum Mechanical "Molecular Dynamics" simulations.
- Dress up this theory into a quantum covariant theory
For project 1, one needs particle physicists with deep knowledge of nuclear chemistry and access to scattering data.
For project 2, one needs to extend to four dimensions standard electronic collisional excitation theory. Most likely the people better suited for that are quantum chemists. Dudley Herschbach comes to mind...:)
For project 3, one needs Dudley Herschbach to be so kind to take another look at semiclassical methods for the Bohr Atom. What can I say, I am his fan...:)
For project 4, of course, I would need to borrow the sharp minds of the M-Theorists, String Theorists and/or Theorists in General...:) Your task is to make from this rough gem a beautifull diamond...:) Not unlike the polishing in the My Fair Lady movie... :) Make Eliza a Dame...:)
At the end of this course, we should be able to control gravitation, stored antimatter in a bottle of water...and do other equally exciting things.
a)Describe the Neutron-Positron Decay HU representation and find out what is the channel for a positron.
b) React that channel with an electron and descover which states are involved with the resulting gamma radiation
Due next weekend...:)
The first to post the correct solution gets an A+