PhysRevD.64.105007.pdf (190.29 kB)
Download fileOptimized renormalization group flows
We study the optimization of exact renormalization group (ERG) flows. We explain why the convergence of approximate solutions towards the physical theory is optimized by appropriate choices of the regularization. We consider specific optimized regulators for bosonic and fermionic fields and compare the optimized ERG flows with generic ones. This is done up to second order in the derivative expansion at both vanishing and nonvanishing temperature. We find that optimized flows at finite temperature factorize. This corresponds to the disentangling of thermal and quantum fluctuations. A similar factorization is found at second order in the derivative expansion. The corresponding optimized flow for a proper-time renormalization group is also provided to leading order in the derivative expansion. [DOI: 10.1103/PhysRevD.64.105007]
History
Publication status
- Published
File Version
- Published version
Journal
Physical Review DISSN
1550-2368Publisher
American Physical SocietyExternal DOI
Issue
10Volume
64Page range
105007Pages
17.0Department affiliated with
- Physics and Astronomy Publications
Notes
Conceptual studies of modern renormalisation group techniques. Optimisation ideas are introduced and worked out in various examples. These techniques have become a world-wide standard in this community, also influencing developments in neighbouring fields. It has accrued over 90 citations.Full text available
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Peer reviewed?
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