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13 results on '"Warschinke, Matthias"'

1. Composite operator and condensate in $SU(N)$ Yang-Mills theory with $U(N-1)$ stability group

Author

Warschinke, Matthias, Matsudo, Ryutaro, Nishino, Shogo, Shinohara, Toru, and Kondo, Kei-Ichi

Subjects
High Energy Physics - Theory
Abstract

Recently, a reformulation of the $SU(N)$ Yang-Mills theory inspired by the Cho-Faddeev-Niemi decomposition has been developed in order to understand confinement from the viewpoint of the dual superconductivity. The concept of infrared Abelian dominance plays an important role in the realization of this concept and through numerical simulations on the lattice, evidence was found for example in the form of the dynamical mass generation for certain gluon degrees of freedom. A promising analytical attempt to explain the generation of such masses is through condensates of mass dimension two. In this talk, we want to focus on the reformulated $SU(N)$ Yang-Mills theory in the previously overlooked minimal option with the non-Abelian $U(N-1)$ stability group, in contrast to the famous maximal Abelian gauge, where the decomposition corresponds to the Abelian $U(1)^{N-1}$ stability group. We proceed with a thorough one-loop analysis of this novel decomposition, calculating all standard renormalization group functions at one-loop level in light of the renormalizability of this theory. We subsequently define an appropriate mixed gluon-ghost composite operator of mass dimension two as the candidate for the condensate within this theory and prove its (on-shell) BRST invariance and the multiplicative renormalizability. Finally, the existence of the condensate is discussed within the local composite operator formalism., Comment: Talk given at the XIIIth Quark Confinement and the Hadron Spectrum 2018, Maynooth

Published
2018

2. Magnetic monopoles in pure $SU (2)$ Yang--Mills theory with a gauge-invariant mass

Author

Nishino, Shogo, Matsudo, Ryutaro, Warschinke, Matthias, and Kondo, Kei-Ichi

Subjects
High Energy Physics - Theory
Abstract

In this paper, we show the existence of magnetic monopoles in the pure $SU(2)$ Yang--Mills theory even in absence of scalar fields when the gauge-invariant mass term is introduced. This result follows from the recent proposal for obtaining the gauge field configurations in the Yang-Mills theory from the solutions of the field equations in the "complementary" gauge-scalar model with the radial length of the scalar field being fixed. The gauge-invariant mass term is obtained through a change of variables and a gauge-independent description of the Brout-Englert-Higgs mechanism which neither relies on the spontaneous breaking of gauge symmetry nor on the assumptions of the nonvanishing vacuum expectation value of the scalar field. According to these procedures, we solve under the static and spherically symmetric ansatz the field equations of the $SU(2)$ Yang-Mills theory coupled with an adjoint scalar field whose radial degree of freedom is fixed, and obtain a gauge field configuration of magnetic monopole with a minimum magnetic charge in the massive $SU(2)$ Yang-Mills theory. We compare the magnetic monopole obtained in this way in the massive Yang--Mills theory with the Wu-Yang magnetic monopole in the pure Yang-Mills theory and the 't Hooft-Polyakov magnetic monopole in the Georgi-Glashow model., Comment: 16 pages, 7 figures, revised version

Published
2018
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3. Composite operator and condensate in the $SU(N)$ Yang-Mills theory with $U(N-1)$ stability group

Author

Warschinke, Matthias, Matsudo, Ryutaro, Nishino, Shogo, Shinohara, Toru, and Kondo, Kei-Ichi

Subjects
High Energy Physics - Theory
Abstract

Recently, some reformulations of the Yang-Mills theory inspired by the Cho-Faddeev-Niemi decomposition have been developed in order to understand confinement from the viewpoint of the dual superconductivity. In this paper we focus on the reformulated $SU(N)$ Yang-Mills theory in the minimal option with $U(N-1)$ stability group. Despite existing numerical simulations on the lattice we perform the perturbative analysis to one-loop level as a first step towards the non-perturbative analytical treatment. First, we give the Feynman rules and calculate all renormalization factors to obtain the standard renormalization group functions to one-loop level in light of the renormalizability of this theory. Then we introduce a mixed gluon ghost composite operator of mass dimension two and show the BRST invariance and the multiplicative renormalizability. Armed with these results, we argue the existence of the mixed gluon-ghost condensate by means of the so-called local composite operator formalism, which leads to various interesting implications for confinement as shown in preceding works., Comment: In the latest version, we corrected a previously wrong result for the anomalous dimension of the residual ghosts

Published
2017
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4. Impact of generalized Yukawa interactions on the lower Higgs mass bound

Author

Gies, Holger, Sondenheimer, René, and Warschinke, Matthias

Subjects
High Energy Physics - Phenomenology, High Energy Physics - Theory
Abstract

We investigate the impact of operators of higher canonical dimension on the lower Higgs mass consistency bound by means of generalized Higgs-Yukawa interactions. Analogously to higher-order operators in the bare Higgs potential in an effective field theory approach, the inclusion of higher-order Yukawa interactions, e.g., $\phi^3\bar{\psi}\psi$, leads to a diminishing of the lower Higgs mass bound and thus to a shift of the scale of new physics towards larger scales by a few orders of magnitude without introducing a metastability in the effective Higgs potential. We observe that similar renormalization group mechanisms near the weak-coupling fixed point are at work in both generalizations of the microscopic action. Thus, a combination of higher-dimensional operators with generalized Higgs as well as Yukawa interactions does not lead to an additive shift of the lower mass bound, but relaxes the consistency bounds found recently only slightly. On the method side, we clarify the convergence properties of different projection and expansion schemes for the Yukawa potential used in the functional renormalization group literature so far., Comment: 18 pages, 5 figures

Published
2017
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5. Dyon and magnetic monopole in Yang--Mills theory derived through the complementary gauge-scalar model

Author

Nishino, Shogo, Matsudo, Ryutaro, Warschinke, Matthias, and Kondo, Kei-Ichi

Subjects
High Energy Physics - Theory
Abstract

We show that dyon and magnetic monopole can be constructed in the gauge-independent way for the $SU(2)$ Yang--Mills theory even in the absence of the scalar field. This result is derived from the recent proposal for obtaining non-trivial topological configurations responsible for quark confinement in the Yang-Mills theory based on the Confinement-Higgs complementary relationship between the pure Yang-Mills theory and the gauge-scalar model with an adjoint scalar field of the fixed length. We discuss how such configurations have the implications for quark confinement., Comment: Argument completely modified in arXiv:1803.04339

Published
2017

7. Magnetic monopoles in pure Yang–Mills theory with a gauge-invariant mass

Author

Nishino, Shogo, Matsudo, Ryutaro, Warschinke, Matthias, and Kondo, Kei-Ichi

Subjects
High Energy Physics::Theory, High Energy Physics::Lattice, High Energy Physics::Phenomenology
Abstract

In this paper, we show the existence of magnetic monopoles in the pure Yang–Mills theory when a gauge-invariant mass term is introduced. This result follows from the recent proposal for obtaining gauge field configurations in the Yang–Mills theory from the solutions of the field equations in the “complementary” gauge–scalar model. The gauge-invariant mass term is obtained through a change of variables and a gauge-independent description of the Brout–Englert–Higgs mechanism, which relies neither on the spontaneous breaking of gauge symmetry nor on the assumptions of the nonvanishing vacuum expectation value of the scalar field. We solve under the static and spherically symmetric ansatz the field equations of the Yang–Mills theory coupled to a single adjoint scalar field whose radial degree of freedom is eliminated. We show that the solution can be identified with the gauge field configuration of a magnetic monopole with a minimum magnetic charge in the massive Yang–Mills theory. Moreover, we compare the magnetic monopole of the massive Yang–Mills theory obtained in this way with the Wu–Yang magnetic monopole in the pure Yang–Mills theory and the ’t Hooft–Polyakov magnetic monopole in the Georgi–Glashow gauge–scalar model.

Published
2018

13. Composite operator and condensate in the SU(N) Yang-Mills theory with U(N-1) stability group.

Author

Warschinke, Matthias, Ryutaro Matsudo, Shogo Nishino, Toru Shinohara, and Kei-Ichi Kondo

Subjects
*SUPERCONDUCTIVITY, *YANG-Mills theory, *RENORMALIZATION group
Abstract

Recently, some reformulations of the Yang-Mills theory inspired by the Cho-Faddeev-Niemi decomposition have been developed in order to understand confinement from the viewpoint of the dual superconductivity. In this paper we focus on the reformulated SU(N) Yang-Mills theory in the minimal option with U(N-1) stability group. Despite existing numerical simulations on the lattice we perform the perturbative analysis to one-loop level as a first step towards the nonperturbative analytical treatment. First, we give the Feynman rules and calculate all renormalization factors to obtain the standard renormalization group functions to one-loop level in light of the renormalizability of this theory. Then we introduce a mixed gluon-ghost composite operator of mass dimension 2 and show the Bechi-Rouet-Stora-Tyutin invariance and the multiplicative renormalizability. Armed with these results, we argue the existence of the mixed gluon-ghost condensate by means of the so-called local composite operator formalism, which leads to various interesting implications for confinement as shown in preceding works. [ABSTRACT FROM AUTHOR]

Published
2018
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