| de Broglie-Bohm theory | causal model of QT/QFT |
implies interpretation of QT | yes | yes |
causal model | yes | yes |
deterministic model | yes | yes |
Local causal model | no | yes, but limited size of quantum object * 1 |
separation of particle configuration and environment | quantum object/wave function | quantum object/ |
global wave function for universe | yes | global , but local dynamics * 2 |
model of measurement | yes | yes (see Section 8.3) |
measurement implies interaction with measurement apparatus | yes | yes |
measurement is typically position based | yes | yes |
measurement: role of observer | no | no |
Collapse of wave function | other eigenstates continue to exist * 7 | collapse of the quantum object |
observables | no | no |
non-local mass | yes | mass is a quantum object-global attribute * 3 |
particles act back on wave function | no | yes * 4 |
Entanglement | non-local | quantum object local * 5 |
Quantum equilibrium hypothesis | yes | emergence of stable collective behaviour * 6 |
absolut space and time | yes | yes |
special interpretation of uncertainty principle | yes | ? |
complementarity | no | no |
spin treatment | ? | ? |
contextualisation | yes | ? |
Support of many worlds | no * 8 | no |