to main chapter Emergent Quantum Mechanics. Quantum Nano Dynamics.

In all surface phenomena studied, ranging from atom localization, adsorbate diffusion,
imaging of clean and adsorbate covered surfaces in the scanning tunnelling
microscope, long range forces on metal surfaces in the atomic force microscopy,
current-induced surface reactions,''mirrages'' in the STM, etc. the necessary condition
is the transient localization of an electrical charge or an atom or molecule. In
EQM the solution of Schroedinger's equation in high spacetime dimensions provides
the chooser mechanism for localization of quantum particles based on the entanglement
with gravonons. The conditions for the chooser mechanism is weak and local interaction
of the quantum particle with a continuum of high density of states, which are warranted
by the continuum of gravitons and their local version the gravonons.
The phenomenology of Copenhagen quantum mechanics is obtained without the need of
introducing the process of collapse and a probabilistic interpretation of the wave
function. Operators defining observables need not be introduced. All experimental
findings are explained in a deterministic way as a consequence of the time
development of the wave function in configuration space according to Schroedinger's
equation without the need of introducing a probabilistic interpretation.