### What you should find out, Tasks 2 and 3

Index

###
Correlation diagrams: eigenvalues

eigen.gif

Eigenvalues, 'correlation diagram'

diag.gif

Diagonal matrix elements, 'single centers' analogue,
without the interaction

TrajEigen.gif

Eigenvalues, 'correlation diagram', with negative
and positive R(t) ( R(t) = v t )

###
Time developement: Collisions. Adiabatic is better for slow?

SlowAdiabat.gif

Slow colision : adiabatic theory.
Probability to occupy the 'quasimolecular states,
which correspond to the eigenvalues. Riding the correlation
diagram.

SlowProb.gif

Slow colision : Probability to occupy
the original states (c.f. 'single centers' above, diagonals )
###
Time developement: Collisions.

### Atomic centers (the diagonals)
better for the fast?

FastAdiabat.gif

Fast colision : adiabatic theory.
Probability to occupy the 'quasimolecular states,
which correspond to the eigenvalues. Riding the correlation
diagram.

FastProb.gif

Fast colision : Probability to occupy
the original states (c.f. 'single centers' above, diagonals )

**Index**
**THE RESULTS: explanations to task 4 (imprunge)**