Open AccessOn gravity and quantum interactions
Author(s) -
Ole L. Trinhammer
Publication year - 2021
Publication title -
europhysics letters
Language(s) - English
Resource type - Journals
eISSN - 1286-4854
pISSN - 0295-5075
DOI - 10.1209/0295-5075/ac56ab
Subject(s) - physics , general relativity , quantum gravity , theoretical physics , hořava–lifshitz gravity , quantum , gravitation , quantum field theory , gravitational field , fundamental interaction , classical mechanics , quantum mechanics , quantum dynamics , quantum process
We introduce the metric of general relativity into a description of baryon mass spectra which otherwise has been founded entirely on the concept of an intrinsic configuration space, the Lie group U (3). We find that the general relativistic metric influences the mass eigenstates in gravitational fields. We discuss parts per million effects that may be observed in space missions close to the Sun or the planet Jupiter, for instance by accurate Cavendish experiments or energy shifts in gamma decays of metastable nuclei like Ba-137m. We review how the particle and gauge fields are generated by momentum forms on the intrinsic wave functions to form the quantum field bases for instance of quantum chromodynamics. Our strategy to combine quantum interactions and general relativity is that of geometrising quantum mechanics rather than quantising gravity.