Discrete and Continuum Quantum Gravity
Herbert W. Hamber
TL;DR
This paper reviews discrete and continuum quantum gravity approaches using the covariant Feynman path integral, highlighting different methods and their potential to unify quantum mechanics with general relativity.
Contribution
It provides a comparative overview of discrete and continuum quantum gravity models within the covariant path integral framework.
Findings
Different approaches offer complementary insights into quantum gravity.
Path integral methods facilitate unification of quantum mechanics and gravity.
Review highlights key challenges and future directions in quantum gravity research.
Abstract
I review discrete and continuum approaches to quantized gravity based on the covariant Feynman path integral approach.
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Taxonomy
TopicsNoncommutative and Quantum Gravity Theories · Black Holes and Theoretical Physics · Quantum Mechanics and Applications