Quantum Correlations and Fundamental Conservation Laws
... 4 results for discussion: 1) Correlation functions of quantum mechanics are direct consequence of the CLASSICAL conservation laws arising in space-time symmetries (fundamental conservation laws), applied to ensembles. 2) Any theory that has a correlation function different from the ones in QM is in ...
... 4 results for discussion: 1) Correlation functions of quantum mechanics are direct consequence of the CLASSICAL conservation laws arising in space-time symmetries (fundamental conservation laws), applied to ensembles. 2) Any theory that has a correlation function different from the ones in QM is in ...
Possible Topics for the Final Project Taken with slight modification
... 17. Supersymmetric quantum mechanics. 18. The Zeeman effect in weak, intermediate and strong magnetic fields. 19. The Lamb shift in hydrogen — evidence that relativistic quantum mechanics must be replaced by quantum field theory. 20. The non-relativistic quark model of the proton, neutron and relate ...
... 17. Supersymmetric quantum mechanics. 18. The Zeeman effect in weak, intermediate and strong magnetic fields. 19. The Lamb shift in hydrogen — evidence that relativistic quantum mechanics must be replaced by quantum field theory. 20. The non-relativistic quark model of the proton, neutron and relate ...
