Quantum physics in inertial and gravitational fields
G. Papini
TL;DR
This paper explores how covariant wave equations predict inertial and gravitational effects in quantum systems, including Bose-Einstein condensates and particles in accelerators, with additional effects from reciprocity and maximal acceleration models.
Contribution
It provides a covariant framework for understanding inertial-gravitational effects in quantum systems and discusses new effects from reciprocity and maximal acceleration models.
Findings
Inertial-gravitational effects predicted for quantum systems.
Additional effects from reciprocity and maximal acceleration models.
Specific examples illustrating these effects.
Abstract
Covariant generalizations of well-known wave equations predict the existence of inertial-gravitational effects for a variety of quantum systems that range from Bose-Einstein condensates to particles in accelerators. Additional effects arise in models that incorporate Born reciprocity principle and the notion of a maximal acceleration. Some specific examples are discussed in detail.
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Taxonomy
TopicsRelativity and Gravitational Theory · Cosmology and Gravitation Theories · Geophysics and Gravity Measurements