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The Wilsonian Revolution in Statistical Mechanics and Quantum
The Wilsonian Revolution in Statistical Mechanics and Quantum

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Pre-AP Chemistry Chemical Quantities Review Sheet
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Does Time Exist in Quantum Gravity?
Does Time Exist in Quantum Gravity?

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Derivation of the Pauli Exclusion Principle
Derivation of the Pauli Exclusion Principle

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Superconducting loop quantum gravity and the cosmological constant
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Derivation of the Pauli Exclusion Principle and Meaning
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Quantum gravitational contributions to quantum electrodynamics
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Smolin - Bell paper - International Journal of Quantum Foundations
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Derivation of the Pauli Exclusion Principle
Derivation of the Pauli Exclusion Principle

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if on the Internet, Press  on your browser to
if on the Internet, Press on your browser to

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Eddington`s Theory of Gravity and Its Progeny

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General Relativity as an Effective Field Theory
General Relativity as an Effective Field Theory

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GR100QuantumGravity2015 - Institute for Advanced Study
GR100QuantumGravity2015 - Institute for Advanced Study

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Asymptotic safety in quantum gravity

Asymptotic safety (sometimes also referred to as nonperturbative renormalizability) is a concept in quantum field theory which aims at finding a consistent and predictive quantum theory of the gravitational field. Its key ingredient is a nontrivial fixed point of the theory's renormalization group flow which controls the behavior of the coupling constants in the ultraviolet (UV) regime and renders physical quantities safe from divergences. Although originally proposed by Steven Weinberg to find a theory of quantum gravity, the idea of a nontrivial fixed point providing a possible UV completion can be applied also to other field theories, in particular to perturbatively nonrenormalizable ones. In this respect, it is similar to Quantum triviality.The essence of asymptotic safety is the observation that nontrivial renormalization group fixed points can be used to generalize the procedure of perturbative renormalization. In an asymptotically safe theory the couplings do not need to be small or tend to zero in the high energy limit but rather tend to finite values: they approach a nontrivial UV fixed point. The running of the coupling constants, i.e. their scale dependence described by the renormalization group (RG), is thus special in its UV limit in the sense that all their dimensionless combinations remain finite. This suffices to avoid unphysical divergences, e.g. in scattering amplitudes. The requirement of a UV fixed point restricts the form of the bare action and the values of the bare coupling constants, which become predictions of the asymptotic safety program rather than inputs.As for gravity, the standard procedure of perturbative renormalization fails since Newton's constant, the relevant expansion parameter, has negative mass dimension rendering general relativity perturbatively nonrenormalizable. This has driven the search for nonperturbative frameworks describing quantum gravity, including asymptotic safety which — in contrast to other approaches—is characterized by its use of quantum field theory methods, without depending on perturbative techniques, however. At the present time, there is accumulating evidence for a fixed point suitable for asymptotic safety, while a rigorous proof of its existence is still lacking.
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