Goal: Meet requirements
More specifically, define experimental effects well enough to falsify temporal quantization.
If not right at least wrong in the right direction.
Organization follows requirements
Deal with reasonably simple en passant as a requirement at each step.
Include two appendices:
No acronyms; distracting.
We use for quantum time, for laboratory time.
We use an over-dot derivative with respect to laboratory time:
And we use an over-bar to indicate averaging, especially averaging over quantum time (or quantum energy).
By analogy we also use an over-bar to indicate the standard quantum theory part of an object.
An over-dot over an over-bar would represent the evolution in laboratory time of an averaged or standard quantum theory object.
We use a 'frown' character to indicate the quantum time part. And we use no ornament to mark a fully four dimensional object.
For example, it will turn out that the free kernel can be written as a product of time and space parts:
When we may, we will use for the time part of wave functions (from the initial letter of , the Greek word for time) and (Greek x ) for the space part, e.g.: