Soft symmetry improvement of two particle irreducible effective actions

Techniques based on n-particle irreducible effective actions can be used to study systems where perturbation theory does not apply. The main advantage, relative to other non-perturbative continuum methods, is that the hierarchy of integral equations that must be solved truncates at the level of the action, and no additional approximations are needed. The main problem with the method is renormalization, which until now could only be done at the lowest (n=2) level. In this paper we show how to obtain renormalized results from an n-particle irreducible effective action at any order. We consider a symmetric scalar theory with quartic coupling in four dimensions and show that the 4 loop 4-particle-irreducible calculation can be renormalized using a renormalization group method. The calculation involves one bare mass and one bare coupling constant which are introduced at the level of the Lagrangian, and cannot be done using any known method by introducing counterterms. * carrington@brandonu.ca †

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“…We can rewrite (11) in a more convenient form. First we choose special names for three kernels we will write repeatedly…”

Section: Methodsmentioning

confidence: 99%

“…A major disadvantage of nPI methods is a violation of gauge invariance [6,7]. A procedure to minimize gauge dependence has been proposed [8], and some issues with applying the tehcnique are discussed in [9][10][11].…”

Section: Introductionmentioning

confidence: 99%

Renormalization of the 4PI effective action using the functional renormalization group

et al. 2019

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“…One major disadvantages is a violation of gauge invariance [45,46]. A method to mimimize gauge dependence has been proposed [47], and some issues with applying the method are discussed in [48][49][50]. Another significant difficulty with the nPI formalism is renormalization.…”

Section: Introductionmentioning

confidence: 99%

2PI effective theory at next-to-leading order using the functional renormalization group

et al. 2018

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We consider a symmetric scalar theory with quartic coupling in 4-dimensions. We show that the 4 loop 2PI calculation can be done using a renormalization group method. The calculation involves one bare coupling constant which is introduced at the level of the Lagrangian and is therefore conceptually simpler than a standard 2PI calculation, which requires multiple counterterms. We explain how our method can be used to do the corresponding calculation at the 4PI level, which can not be done using any known method by introducing counterterms. * carrington@brandonu.ca †

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“…A fundamental advantage of nPI is that the method provides a systematic expansion with the truncation occuring at the level of the action. Gauge invariance may be violated by the truncation [4,5], and various proposals to minimize gauge dependence have been discussed in [6][7][8]. We are primarily interested in the renormalization of nPI theories.…”

Section: Introductionmentioning

confidence: 99%

Four Loop Scalar ϕ4 Theory Using the Functional Renormalization Group

Carrington

Phillips

2019

Universe

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We consider a symmetric scalar theory with quartic coupling in 4-dimensions. We show that the 4 loop 2PI calculation can be done using a renormalization group method. The calculation involves one bare coupling constant which is introduced at the level of the Lagrangian and is therefore conceptually simpler than a standard 2PI calculation, which requires multiple counterterms. We explain how our method can be used to do the corresponding calculation at the 4PI level, which cannot be done using any known method by introducing counterterms.

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Soft symmetry improvement of two particle irreducible effective actions

Cited by 5 publications

References 30 publications

Renormalization of the 4PI effective action using the functional renormalization group

Renormalization of the 4PI effective action using the functional renormalization group

2PI effective theory at next-to-leading order using the functional renormalization group

Four Loop Scalar ϕ4 Theory Using the Functional Renormalization Group

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