Emergent geometry from field theory: Wilson’s renormalization group revisited

Abstract We describe the on-shell method to derive the Renormalization Group (RG) evolution of Wilson coefficients of high dimensional operators at one loop, which is a necessary part in the on-shell construction of the Standard Model Effective Field Theory (SMEFT), and exceptionally efficient based on the amplitude basis in hand. The UV divergence is obtained by firstly calculating the coefficients of scalar bubble integrals by unitary cuts, then subtracting the IR divergence in the massless bubbles, which can be easily read from the collinear factors we obtained for the Standard Model fields. Examples of deriving the anomalous dimensions at dimension six are presented in a pedagogical manner. We also give the results of contributions from the dimension-8 H4D4 operators to the running of V+V−H2 operators, as well as the running of B+B−H2D2n from H4D2n+4 for general n.

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STOCHASTIC FIELD THEORY AND RENORMALIZATION GROUP APPROACH TO CRITICAL BEHAVIORS IN THERMO FIELD DYNAMICS

International Journal of Modern Physics A ◽

10.1142/s0217751x8900087x ◽

1989 ◽

Vol 04 (09) ◽

pp. 2185-2210

Author(s):

B. BHATTACHARYA

Keyword(s):

Field Theory ◽

Renormalization Group ◽

Finite Temperature ◽

Internal Field ◽

Point Of View ◽

Internal Space ◽

Theoretic Approach ◽

Stochastic Field ◽

Stochastic Fields ◽

Renormalization Group Approach

We have studied here the critical behaviors in a simple model from the point of view of the renormalization group at finite temperature utilizing the Stochastic field theoretic approach towards a finite temperature field theory. To this end, thermofield dynamics has been formulated in terms of Stochastic fields in the external and internal space and the thermal average of the two-point correlation function of the internal field functions is related with the order parameter. The thermodynamical functions and the critical phenomena are then studied constructing the generating functionals involving Stochastic fields.

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Relevance of anisotropy in the multichannel Kondo effect: Comparison of conformal field theory and numerical renormalization-group results

Physical Review B ◽

10.1103/physrevb.45.7918 ◽

1992 ◽

Vol 45 (14) ◽

pp. 7918-7935 ◽

Cited By ~ 169

Author(s):

Ian Affleck ◽

Andreas W. W. Ludwig ◽

H.-B. Pang ◽

D. L. Cox

Keyword(s):

Field Theory ◽

Renormalization Group ◽

Conformal Field Theory ◽

Kondo Effect ◽

Numerical Renormalization Group ◽

Conformal Field

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Variational Solution of the Gross–Neveu Model: Finite N and Renormalization

International Journal of Modern Physics A ◽

10.1142/s0217751x97001730 ◽

1997 ◽

Vol 12 (19) ◽

pp. 3307-3334 ◽

Cited By ~ 32

Author(s):

C. Arvanitis ◽

F. Geniet ◽

M. Iacomi ◽

J.-L. Kneur ◽

A. Neveu

Keyword(s):

Field Theory ◽

Renormalization Group ◽

General Framework ◽

Free Field ◽

Variational Calculation ◽

Final Point ◽

Variational Calculations ◽

Perturbative Renormalization ◽

Good Agreement ◽

Gross Neveu Model

We show how to perform systematically improvable variational calculations in the O(2N) Gross–Neveu model for generic N, in such a way that all infinities usually plaguing such calculations are accounted for in a way compatible with the perturbative renormalization group. The final point is a general framework for the calculation of nonperturbative quantities like condensates, masses, etc., in an asymptotically free field theory. For the Gross–Neveu model, the numerical results obtained from a "two-loop" variational calculation are in a very good agreement with exact quantities down to low values of N.

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Lattice Field Theory and the Renormalization Group Revisited

Graduate Student Series in Physics - Gauge Theories in Particle Physics, Volume II ◽

10.1201/9780849387760.ch16 ◽

2003 ◽

Keyword(s):

Field Theory ◽

Renormalization Group ◽

Lattice Field Theory ◽

Lattice Field

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Lattice Field Theory, and the Renormalization Group Revis- ited

Gauge Theories in Particle Physics: A Practical Introduction, Volume 2: Non-Abelian Gauge Theories ◽

10.1201/9781466513105-10 ◽

2012 ◽

pp. 165-206

Keyword(s):

Field Theory ◽

Renormalization Group ◽

Lattice Field Theory ◽

Lattice Field

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Multi-Critical Multi-Field Models: A CFT Approach to the Leading Order

Universe ◽

10.3390/universe5060151 ◽

2019 ◽

Vol 5 (6) ◽

pp. 151 ◽

Cited By ~ 6

Author(s):

Gian Paolo Vacca ◽

Alessandro Codello ◽

Mahmoud Safari ◽

Omar Zanusso

Keyword(s):

Field Theory ◽

Renormalization Group ◽

Conformal Field Theory ◽

Leading Order ◽

Full Agreement ◽

Approximate Symmetries ◽

Conformal Field ◽

Perturbative Renormalization

We present some general results for the multi-critical multi-field models in d > 2 recently obtained using conformal field theory (CFT) and Schwinger–Dyson methods at the perturbative level without assuming any symmetry. Results in the leading non trivial order are derived consistently for several conformal data in full agreement with functional perturbative renormalization group (RG) methods. Mechanisms like emergent (possibly approximate) symmetries can be naturally investigated in this framework.

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The KAM theorem and renormalization group

Ergodic Theory and Dynamical Systems ◽

10.1017/s0143385708080450 ◽

2009 ◽

Vol 29 (2) ◽

pp. 419-431 ◽

Cited By ~ 5

Author(s):

E. DE SIMONE ◽

A. KUPIAINEN

Keyword(s):

Field Theory ◽

Quantum Field Theory ◽

Renormalization Group ◽

Elementary Proof ◽

Renormalization Group Equation ◽

Quadratic Nonlinearity ◽

Picard Iteration ◽

Group Equation ◽

Quantum Field ◽

Kam Theorem

AbstractWe give an elementary proof of the analytic KAM theorem by reducing it to a Picard iteration of a certain PDE with quadratic nonlinearity, the so-called Polchinski renormalization group equation studied in quantum field theory.

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