Gravitational Dispersion Forces and Gravity Quantization

Abstract: The parallel development of the theories of electrodynamical and gravitational dispersion forces reveals important differences. The former arose earlier than the formulation of quantum electrodynamics so that expressions for the unretarded, van der Waals forces were obtained by treating the field as classical. Even after the derivation of quantum electrodynamics, semiclassical considerations continued to play a critical role in the interpretation of the full results, including in the retarded regime. On the ot… Show more

“…Prof. Pinto gives a careful review in "Gravitational Dispersion Forces and Gravity Quantization" [11] of the history of electrodynamic dispersion forces, detailing the classical and semi-classical explanations and the later quantum developments, and contrasts this development to the purely quantum discussions of gravitational dispersion forces, which, however, can also be considered within a semi-classical framework. He sheds light on the common assumption that the gravitational field is necessarily a quantized field, and suggests that data do not support the conclusion that the gravitational field must be quantized.…”

Special Issue: “Symmetries in Quantum Mechanics”

“…Prof. Pinto gives a careful review in "Gravitational Dispersion Forces and Gravity Quantization" [11] of the history of electrodynamic dispersion forces, detailing the classical and semi-classical explanations and the later quantum developments, and contrasts this development to the purely quantum discussions of gravitational dispersion forces, which, however, can also be considered within a semi-classical framework. He sheds light on the common assumption that the gravitational field is necessarily a quantized field, and suggests that data do not support the conclusion that the gravitational field must be quantized.…”

Special Issue: “Symmetries in Quantum Mechanics”