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1. Higgs boson production at $\mu^+ \mu^+$ colliders

Author

Hamada, Yu, Kitano, Ryuichiro, Matsudo, Ryutaro, Okawa, Shohei, Takai, Ryoto, Takaura, Hiromasa, and Treuer, Lukas

Subjects
High Energy Physics - Phenomenology
Abstract

We study Higgs boson production at $\mu^+ \mu^+$ colliders at high energy. Since both initial-state particles are positively charged, there is no $W$ boson fusion at the leading order, as it requires a $W^+ W^-$ pair. However, we find that the cross section of the higher-order, $\gamma$- and $Z$-mediated $W$ boson fusion process is large at high center-of-mass energies $\sqrt s$, growing as $(\log s)^3$. This is in contrast to the $\log s$ behavior of the leading-order $W$ boson fusion. Thus, even though it is a higher-order process, the rate of Higgs boson production for 10 TeV energies at $\mu^+ \mu^+$ colliders with polarized beams can be as high as about half of the one at $\mu^+ \mu^-$ colliders, assuming the same integrated luminosity. To calculate the cross section of this process accurately, we carefully treat the collinear emission of the photon in the intermediate state. The thereby obtained large cross section furthermore shows the significance of Higgs production with an extra $W$ boson in the final state also at $\mu^+ \mu^-$ and $e^+ e^-$ colliders., Comment: 26 pages, 8 figures

Published
2024

2. Boundary condition and reflection anomaly in $2+1$ dimensions

Author

Chen, Jiunn-Wei, Hsieh, Chang-Tse, and Matsudo, Ryutaro

Subjects
High Energy Physics - Theory
Abstract

It is known that the $2+1$d single Majorana fermion theory has an anomaly of the reflection, which is canceled out when 16 copies of the theory are combined. Therefore, it is expected that the reflection symmetric boundary condition is impossible for one Majorana fermion, but possible for 16 Majorana fermions. In this paper, we consider a reflection symmetric boundary condition that varies at a single point, and find that there is a problem with one Majorana fermion. The problem is the absence of a corresponding outgoing wave to a specific incoming wave into the boundary, which leads to the non-conservation of the energy. For 16 Majorana fermions, it is possible to connect every incoming wave to an outgoing wave without breaking the reflection symmetry. In addition, we discuss the connection with the fermion-monopole scattering in $3+1$ dimensions., Comment: 24 pages, 2 figures

Published
2023
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3. Precision $\mu^+\mu^+$ and $\mu^+e^-$ elastic scatterings

Author

Hamada, Yu, Kitano, Ryuichiro, Matsudo, Ryutaro, and Takaura, Hiromasa

Subjects
High Energy Physics - Phenomenology
Abstract

Expected precisions of measurements of the elastic scattering cross sections are estimated for $\mu^+ \mu^+$ and $\mu^+ e^-$ colliders, which are recently proposed as future realistic possibilities ($\mu$TRISTAN). Comparing with contributions from possible new physics represented by higher dimensional operators, we find that the measurements at a TeV energy $\mu^+\mu^+$ collider can probe the scale of new physics up to $O(100)$~TeV. A $\mu^+ e^-$ collider for the Higgs boson factory can also improve the electroweak precision test., Comment: 21 pages, 8 figures, 2 tables

Published
2022

4. Understanding anomalous particle production in massless QED via time-varying $\theta$ angle

Author

Hamada, Yu, Kitano, Ryuichiro, Matsudo, Ryutaro, and Mukaida, Kyohei

Subjects
High Energy Physics - Theory, Astrophysics - Cosmology and Nongalactic Astrophysics, High Energy Physics - Phenomenology
Abstract

The Maxwell equations imply that, under the background of non-zero $\boldsymbol{B}$, varying $\theta$ term produces $\boldsymbol{E} \cdot \boldsymbol{B}$. An interesting example is the Witten effect where a magnetic monopole becomes a dyon which, however, should disappear in the exact massless limit of the fermion. Underlying mechanism of this phenomenon has been understood by Callan by the presence of an effective axion-like degree of freedom around the monopole, which is roughly the phase of the fermions. The configuration of this axion cancels the effect of the $\theta$ term. Now, the chiral anomaly implies that non-vanishing $\boldsymbol{E} \cdot \boldsymbol{B}$ induces the chiral charge in the system. The question is whether the chiral charge is generated in the massless limit when we take into account the axion-like degree of freedom in the discussion. The discussion is relevant for the mechanism of baryogenesis under the background of time-dependent $\theta$. We solve the system of the massless QED with time dependent $\theta$ by reducing it to the two-dimensional QED. We demonstrate the occurrence of chiral charge generation in the background of static magnetic field for two cases: a magnetic monopole and a uniform magnetic flux. For the monopole case, the chiral charge comes out from the monopole while canceling the Witten effect. For the case of the uniform flux, on the other hand, the effect of the backreaction cannot be ignored, giving a more non-trivial time dependence. We also discuss their implications on baryogenesis., Comment: 33 pages, 2 figures

Published
2022
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5. $\mu$TRISTAN

Author

Hamada, Yu, Kitano, Ryuichiro, Matsudo, Ryutaro, Takaura, Hiromasa, and Yoshida, Mitsuhiro

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

The ultra-cold muon technology developed for the muon $g-2$ experiment at J-PARC provides a low emittance $\mu^+$ beam which can be accelerated and used for realistic collider experiments. We consider the possibility of new collider experiments by accelerating the $\mu^+$ beam up to 1 TeV. Allowing the $\mu^+$ beam to collide with a high intensity $e^-$ beam at the TRISTAN energy, $E_{e^-}= 30$ GeV, in the storage ring with the same size as TRISTAN (the circumference of 3 km), one can realize a collider experiment with the center-of-mass energy $\sqrt s = 346$ GeV, which allows productions of the Higgs bosons through the vector boson fusion processes. We estimate the deliverable luminosity with existing accelerator technologies to be at the level of $5 \times 10^{33}$ cm$^{-2}$ s$^{-1}$, with which the collider can be a good Higgs boson factory. The $\mu^+ \mu^+$ colliders up to $\sqrt s = 2$ TeV are also possible by using the same storage ring. They have a capability of producing the superpartner of the muon up to TeV masses., Comment: 23 pages, 7 figures, version to appear in PTEP

Published
2022
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6. Missing final state puzzle in the monopole-fermion scattering

Author

Kitano, Ryuichiro and Matsudo, Ryutaro

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

It has been known that when a charged fermion scatters off a monopole, the fermion in the $s$-wave component must flip its chirality, i.e., fermion number violation must happen. This fact has led to a puzzle; if there are two or more flavors of massless fermions, any superposition of the fermion states cannot be the final state of the $s$-wave scattering as it is forbidden by conservation of the electric and flavor charges. The unitary evolution of the state vector, on the other hand, requires some interpretation of the final states. We solve the puzzle by finding new particle excitations in the monopole background, where multi-fermion operators exhibit condensation. The particles are described as excitations of closed-string configurations of the condensates., Comment: 19 pages, 5 figures

Published
2021
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7. Peeking into the $\theta$ vacuum

Author

Kitano, Ryuichiro, Matsudo, Ryutaro, Yamada, Norikazu, and Yamazaki, Masahito

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

We propose a subvolume method to study the $\theta$ dependence of the free energy density of the four-dimensional SU($N$) Yang-Mills theory on the lattice. As an attempt, the method is first applied to SU(2) Yang-Mills theory at $T=1.2\,T_c$ to understand the systematics of the method. We then proceed to the calculation of the vacuum energy density and obtain the $\theta$ dependence qualitatively different from the high temperature case. The numerical results combined with the theoretical requirements provide the evidence for the spontaneous CP violation at $\theta = \pi$, which is in accordance with the large $N$ prediction and indicates that the similarity between 4d SU($N$) and 2d CP$^{N-1}$ theories does not hold for $N$=2., Comment: 6 pages, 8 figures, text clarified, references added, systematic errors estimated, argument on surface tension omitted, Fig.7 added to clarify the limitation of the method, no significant change in conclusion. published version

Published
2021
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8. Vector mesons on the wall

Author

Kitano, Ryuichiro and Matsudo, Ryutaro

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

A domain-wall configuration of the $\eta'$ meson bounded by a string (called a pancake or a Hall droplet) is recently proposed to describe the baryons with spin $N_c/2$. In order to understand its baryon number as well as the flavor quantum number, we argue that the vector mesons (the $\rho$ and $\omega$ mesons) should play an essential role for the consistency of the whole picture. We determine the effective theory of large-$N_c$ QCD with $N_f$ massless fermions by taking into account a mixed anomaly involving the $\theta$-periodicity and the global symmetry. The anomaly matching requires the presence of a dynamical domain wall on which a $U(N_f)_{-N_c}$ Chern-Simons theory is supported. We consider the boundary conditions that should be imposed on the edge of the domain wall, and conclude that there should be a boundary term that couples the $U(N_f)_{-N_c}$ gauge field to the vector mesons. We discuss the impact on physics of the chiral phase transition and the relation to the "duality" of QCD., Comment: 29 pages, 1 figure; reference and discussion added

Published
2020
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9. Complex poles, spectral function and reflection positivity violation of Yang-Mills theory

Author

Kondo, Kei-Ichi, Hayashi, Yui, Matsudo, Ryutaro, Suda, Yutaro, and Watanabe, Masaki

Subjects
High Energy Physics - Theory
Abstract

We discuss the analytic continuation of the gluon propagator from the Euclidean region to the complex squared-momentum plane towards the Minkowski region from a viewpoint of gluon confinement. For this purpose, we investigate the massive Yang-Mills model with one-loop quantum corrections, which is to be identified with a low-energy effective theory of the Yang-Mills theory in the sense that the confining decoupling solution for the Euclidean gluon and ghost propagators of the Yang-Mills theory in the Landau gauge obtained by numerical simulations on the lattice are reproduced with good accuracy from the massive Yang-Mills model by taking into account one-loop quantum corrections. We show that the gluon propagator in the massive Yang-Mills model has a pair of complex conjugate poles or "tachyonic" poles of multiplicity two, in accordance with the fact that the gluon field has a negative spectral function, while the ghost propagator has at most one "unphysical" pole. These results are consistent with general relationships between the number of complex poles of a propagator and the sign of the spectral function originating from the branch cut in the Minkowski region under some assumptions on the asymptotic behaviors of the propagator. Consequently, we give an analytical proof for violation of the reflection positivity as a necessary condition for gluon confinement for any choice of the parameters in the massive Yang-Mills model, including the physical point. Moreover, the complex structure of the propagator enables us to explain why the gluon propagator in the Euclidean region is well described by the Gribov-Stingl form., Comment: 1+6 pages, plenary talk presented at Light Cone 2019 - QCD on the light cone: from hadrons to heavy ions, 16-20 September 2019 held at Ecole Polytechnique, Palaiseau, France

Published
2019

10. Quark confinement in the Yang-Mills theory with a gauge-invariant gluon mass in view of the gauge-invariant BEH mechanism

Author

Shibata, Akihiro, Kondo, Kei-Ichi, Matsudo, Ryutaro, and Nishino, Shogo

Subjects
High Energy Physics - Lattice
Abstract

In order to clarify the mechanism of quark confinement in the Yang-Mills theory with mass gap, we propose to investigate the massive Yang-Mills model, namely, Yang-Mills theory with ``a gauge-invariant gluon mass term'', which is to be deduced from a specific gauge-scalar model with a single radially-fixed scalar field under a suitable constraint called the reduction condition. The gluon mass term simulates the dynamically generated mass to be extracted in the low-energy effective theory of the Yang-Mills theory and plays the role of a new probe to study the phase structure and confinement mechanism. In this talk, we first explain why such a gauge-scalar model is constructed without breaking the gauge symmetry through the gauge-independent description of the Brout-Englert-Higgs mechanism which does not rely on the spontaneous breaking of gauge symmetry. Then we discuss how the numerical simulations for the proposed massive Yang-Mills theory can be performed by taking into account the reduction condition in the complementary gauge-scalar model on a lattice. By using the reweighting method, we have investigated the effect of the gluon mass term to the Wilson loop (the static potential) and the dynamically generated mass. Moreover, we point out that the adjoint case would gives an alternative understanding for the physical meaning of the gauge-covariant decomposition for the Yang-Mills field known as the Cho-Duan-Ge-Faddeev-Niemi decomposition, while the fundamental case would give a novel decomposition which has been overlooked so far., Comment: 7 pages, 3 figures, Presented at the 37th International Symposium on Lattice Field Theory - Lattice2019, 16-22 June 2019, Wuhan, China

Published
2019

11. How to extract the 'Abelian' part of double-winding Wilson loop

Author

Matsudo, Ryutaro

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

It is known that the naive Abelian Wilson loop defined by the Abelian projection cannot reproduce the correct behavior of the double-winding Wilson loop. It is also known that the naive Abelian Wilson loop cannot reproduce the correct behavior of the Wilson loops in higher representations, but this problem was recently solved by using the redefined "Abelian" Wilson loop. In this talk, we will give another reason why this redefined "Abelian" Wilson loop behaves correctly, and by following the same line of the argument, we will propose redefined "Abelian" double-winding Wilson loop which is considered to behave correctly., Comment: 7 pages, talk given at the 37th International Symposium on Lattice Field Theory

Published
2019

12. How to extract the dominant part of the Wilson loop average in higher representations

Author

Matsudo, Ryutaro, Shibata, Akihiro, Kato, Seikou, and Kondo, Kei-Ichi

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

In previous works, we have proposed a new formulation of Yang-Mills theory on the lattice so that the so-called restricted field obtained from the gauge-covariant decomposition plays the dominant role in quark confinement. This framework improves the Abelian projection in the gauge-independent manner. For quarks in the fundamental representation, we have demonstrated some numerical evidences for the restricted field dominance in the string tension, which means that the string tension extracted from the restricted part of the Wilson loop reproduces the string tension extracted from the original Wilson loop. However, it is known that the restricted field dominance is not observed for the Wilson loop in higher representations if the restricted part of the Wilson loop is extracted by adopting the Abelian projection or the field decomposition naively in the same way as in the fundamental representation. In this paper, therefore, we focus on confinement of quarks in higher representations. By virtue of the non-Abelian Stokes theorem for the Wilson loop operator, we propose suitable gauge-invariant operators constructed from the restricted field to reproduce the correct behavior of the original Wilson loop averages for higher representations. Moreover, we perform lattice simulations to measure the static potential for quarks in higher representations using the proposed operators. We find that the proposed operators well reproduce the behavior of the original Wilson loop average, namely, the linear part of the static potential with the correct value of the string tension, which overcomes the problem that occurs in naively applying Abelian-projection to the Wilson loop operator for higher representations., Comment: 10 pages, 3 figures

Published
2019
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13. Reflection positivity and complex analysis of the Yang-Mills theory from a viewpoint of gluon confinement

Author

Kondo, Kei-Ichi, Watanabe, Masaki, Hayashi, Yui, Matsudo, Ryutaro, and Suda, Yutaro

Subjects
High Energy Physics - Theory
Abstract

In order to understand the confining decoupling solution of the Yang-Mills theory in the Landau gauge, we consider the massive Yang-Mills model which is defined by just adding a gluon mass term to the Yang-Mills theory with the Lorentz-covariant gauge fixing term and the associated Faddeev-Popov ghost term. First of all, we show that massive Yang-Mills model is obtained as a gauge-fixed version of the gauge-invariantly extended theory which is identified with the gauge-scalar model with a single fixed-modulus scalar field in the fundamental representation of the gauge group. This equivalence is obtained through the gauge-independent description of the Brout-Englert-Higgs mechanism proposed recently by one of the authors. Then, we reconfirm that the Euclidean gluon and ghost propagators in the Landau gauge obtained by numerical simulations on the lattice are reproduced with good accuracy from the massive Yang-Mills model by taking into account one-loop quantum corrections. Moreover, we demonstrate in a numerical way that the Schwinger function calculated from the gluon propagator in the Euclidean region exhibits violation of the reflection positivity at the physical point of the parameters. In addition, we perform the analytic continuation of the gluon propagator from the Euclidean region to the complex momentum plane towards the Minkowski region. We give an analytical proof that the reflection positivity is violated for any choice of the parameters in the massive Yang-Mills model, due to the existence of a pair of complex conjugate poles and the negativity of the spectral function for the gluon propagator to one-loop order. The complex structure of the propagator enables us to explain why the gluon propagator in the Euclidean region is well described by the Gribov-Stingl form., Comment: 33 pages, 25 figures, a version with the same contents as that published in Eur. Phys. J. C 80, 84 (2020)[33 pages] (although the style is different)

Published
2019
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14. Correct way to extract dominant part of the Wilson loop in higher representations

Author

Matsudo, Ryutaro, Shibata, Akihiro, Kato, Seikou, and Kondo, Kei-Ichi

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

The Abelian dominance for the string tension was shown for the fundamental sources in MA gauge in the lattice simulations. For higher representations, however, it is also known that the naive "Abelian" Wilson loop, which is defined by using the diagonal part of the gauge field, does not reproduce the correct behavior. To solve this problem, for an arbitrary representation of an arbitrary compact gauge group, we propose to redefine the "Abelian" Wilson loop. By using this redefined operator, we demonstrate the "Abelian" dominance for sources in the adjoint representation and the sextet representation of $SU(3)$ gauge group in lattice simulations., Comment: 8 pages, 4 figures, talk given at the XIII Quark Confinement and the Hadron Spectrum (Confinement 2018) from 31 July to 6 August 2018, Maynooth University, Ireland. arXiv admin note: text overlap with arXiv:1812.05827

Published
2018

15. Confinement of quarks in higher representations in view of dual superconductivity

Author

Shibata, Akihiro, Matsudo, Ryutaro, Kato, Seikou, and Kondo, Kei-Ichi

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

Dual superconductor picture is one of the most promising scenarios for quark confinement. We have proposed a new formulation of Yang-Mills theory on the lattice so that the so-called restricted field obtained from the gauge-covariant decomposition plays the dominant role in quark confinement. This framework improves the Abelian projection in the gauge-independent manner. For quarks in the fundamental representation, we have demonstrated some numerical evidences for the dual superconductivity. However, it is known that the expected behavior of the Wilson loop in higher representations cannot be reproduced if the restricted part of the Wilson loop is extracted by adopting the Abelian projection or the field decomposition naively in the same way as in the fundamental representation. In this talk, therefore, we focus on confinement of quarks in higher representations. By virtue of the non-Abelian Stokes theorem for the Wilson loop operator, we propose suitable operators constructed from the restricted field only in the fundamental representation to reproduce the correct behavior of the original Wilson loop in higher representations. Moreover, we perform lattice simulations to measure the static potential for quarks in higher representations using the proposed operators. We find that the proposed operators well reproduce the expected behavior of the original Wilson loop average, which overcomes the problem that occurs in naively applying Abelian-projection to the Wilson loop operator for higher representations., Comment: 7 pages, 4 figures, Presented at the 36th Annual International Symposium on Lattice Field Theory - LATTICE2018, 22-28 July, 2018, Michigan State University, East Lansing, Michigan, USA

Published
2018

16. Mass-deformed Yang-Mills theory in the covariant gauge and its gauge-invariant extension through the gauge-independent BEH mechanism

Author

Kondo, Kei-Ichi, Suda, Yutaro, Ohuchi, Masaki, Matsudo, Ryutaro, and Hayashi, Yui

Subjects
High Energy Physics - Theory
Abstract

In this talk we consider the mass-deformed Yang-Mills theory in the covariant gauge which is obtained by just adding a gluon mass term to the Yang-Mills theory with the covariant gauge fixing term and the associated Faddeev-Popov ghost term. First, we reconfirm that the decoupling solution in the Landau gauge Yang-Mills theory is well reproduced from the mass-deformed Yang-Mills theory by taking into account loop corrections. Second, we show that the mass-deformed Yang-Mills theory is obtained as a gauge-fixed version of the gauge-invariantly extended theory which is identified with the gauge-scalar model with a single fixed-modulus scalar field in the fundamental representation of the gauge group. This equivalence is obtained as a consequence of the gauge-independent Brout-Englert-Higgs mechanism proposed recently by one of the authors. Third, we show that the reflection positivity is violated for any value of the parameters in the mass-deformed Yang-Mills theory to one-loop quantum corrections. Finally, we discuss the implications for the existence of positivity violation/restoration crossover in light of the Fradkin-Shenker continuity between Confinement-like and Higgs-like regions in a single confinement phase in the gauge-scalar model on the lattice., Comment: 8 pages, 5 figures, talk given at the XIII Quark Confinement and the Hadron Spectrum (Confinement 2018) from 31 July to 6 August 2018, Maynooth University, Ireland

Published
2018

17. 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

18. 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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19. Lattice study of area law for double-winding Wilson loops

Author

Shibata, Akihiro, Kato, Seikou, Kondo, Kei-Ichi, and Matsudo, Ryutaro

Subjects
High Energy Physics - Lattice
Abstract

We study the double-winding Wilson loops in the SU(N) Yang-Mills theory on the lattice. We discuss how the area law falloff of the double-winding Wilson loop average is modified by changing the enclosing contours C1 and C2 for various values of the number of color N. By using the strong coupling expansion, we evaluate the double-winding Wilson loop average in the lattice SU(N) Yang-Mills theory. Moreover, we compute the double-winding Wilson loop average by lattice Monte Carlo simulations for SU(2) and SU(3). We further discuss the results from the viewpoint of the Non-Abelian Stokes theorem in the higher representations., Comment: 8 pages, 7 figures, presented at the 35th International Symposium on Lattice Field Theory (Lattice 2017), 18-24 June 2017, Granada, Spain

Published
2017
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20. 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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21. Double-winding Wilson loop in $SU(N)$ Yang-Mills theory: A criterion for testing the confinement models

Author

Matsudo, Ryutaro, Kondo, Kei-Ichi, and Shibata, Akihiro

Subjects
High Energy Physics - Theory
Abstract

We examine how the average of double-winding Wilson loops depends on the number of color $N$ in the $SU(N)$ Yang-Mills theory. In the case where the two loops $C_1$ and $C_2$ are identical, we derive the exact operator relation which relates the double-winding Wilson loop operator in the fundamental representation to that in the higher dimensional representations depending on $N$. By taking the average of the relation, we find that the difference-of-areas law for the area law falloff recently claimed for $N=2$ is excluded for $N \geq 3$, provided that the string tension obeys the Casimir scaling for the higher representations. In the case where the two loops are distinct, we argue that the area law follows a novel law $(N - 3)A_1/(N-1)+A_2$ with $A_1$ and $A_2 (A_1

Published
2017
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22. Double-winding Wilson loops in the $SU(N)$ Yang-Mills theory

Author

Matsudo, Ryutaro and Kondo, Kei-Ichi

Subjects
High Energy Physics - Theory
Abstract

We consider double-winding, triple-winding and multiple-winding Wilson loops in the $SU(N)$ Yang-Mills gauge theory. We examine how the area law falloff of the vacuum expectation value of a multiple-winding Wilson loop depends on the number of color $N$. In sharp contrast to the difference-of-areas law recently found for a double-winding $SU(2)$ Wilson loop average, we show irrespective of the spacetime dimensionality that a double-winding $SU(3)$ Wilson loop follows a novel area law which is neither difference-of-areas nor sum-of-areas law for the area law falloff and that the difference-of-areas law is excluded and the sum-of-areas law is allowed for $SU(N)$ ($N \ge 4$), provided that the string tension obeys the Casimir scaling for the higher representations. Moreover, we extend these results to arbitrary multi-winding Wilson loops. Finally, we argue that the area law follows a novel law, which is neither sum-of-areas nor difference-of-areas law when $N\ge 3$. In fact, such a behavior is exactly derived in the $SU(N)$ Yang-Mills theory in the two-dimensional spacetime., Comment: 15 pages, 2 figures

Published
2017
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23. 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

24. Gauge-covariant decomposition and magnetic monopole for G(2) Yang-Mills field

Author

Matsudo, Ryutaro and Kondo, Kei-Ichi

Subjects
High Energy Physics - Theory
Abstract

We give a gauge-covariant decomposition of the Yang-Mills field with an exceptional gauge group $G(2)$, which extends the field decomposition invented by Cho, Duan-Ge, and Faddeev-Niemi for the $SU(N)$ Yang-Mills field. As an application of the decomposition, we derive a new expression of the non-Abelian Stokes theorem for the Wilson loop operator in an arbitrary representation of $G(2)$. The resulting new form is used to define gauge-invariant magnetic monopoles in the $G(2)$ Yang-Mills theory. Moreover, we obtain the quantization condition to be satisfied by the resulting magnetic charge. The method given in this paper is general enough to be applicable to any semi-simple Lie group other than $SU(N)$ and $G(2)$., Comment: 20 pages, 4 figures, minor changes (Appendix C and references added), a version accepted for publication in Physical Review D

Published
2016
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25. Non-Abelian Stokes theorem for the Wilson loop operator in an arbitrary representation and its implication to quark confinement

Author

Matsudo, Ryutaro and Kondo, Kei-Ichi

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

We give a gauge-independent definition of magnetic monopoles in the $SU(N)$ Yang-Mills theory through the Wilson loop operator. For this purpose, we give an explicit proof of the Diakonov-Petrov version of the non-Abelian Stokes theorem for the Wilson loop operator in an arbitrary representation of the $SU(N)$ gauge group to derive a new form for the non-Abelian Stokes theorem. The new form is used to extract the magnetic-monopole contribution to the Wilson loop operator in a gauge-invariant way, which enables us to discuss confinement of quarks in any representation from the viewpoint of the dual superconductor vacuum., Comment: 12 pages, 5 figures, minor changes, a version to be published in Physical Review D. arXiv admin note: text overlap with arXiv:1409.1599

Published
2015
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29. Precision And Elastic Scatterings

Author

Hamada, Yu, Kitano, Ryuichiro, Matsudo, Ryutaro, and Takaura, Hiromasa

Abstract

The expected measurement precisions of elastic scattering cross sections are estimated for μ$^{+}$μ$^{+}$ and μ$^{+}$e$^{−}$ colliders, which have recently been proposed as future realistic possibilities (μTRISTAN). Compared with contributions from possible new physics represented by higher-dimensional operators, we find that the measurements at a TeV energy μ$^{+}$μ$^{+}$ collider can probe the scale of new physics up to O(100) TeV. A μ$^{+}$e$^{−}$ collider for the Higgs boson factory can also improve the electroweak precision test. For those studies, we assume the expected integrated luminosity at μTRISTAN, L$_{int}$ = 120 fb$^{−1}$ (μ$^{+}$μ$^{+}$) and 1 ab$^{−1}$ (μ$^{+}$e$^{−}$).

Published
2022

32. Μtristan Re-acceleration of ultra cold muon in J-PARC muon facility Nb Sn 11 T dipole for the High Luminosity LHC (CERN)

Author

Hamada, Yu, Kitano, Ryuichiro, Matsudo, Ryutaro, Takaura, Hiromasa, and Yoshida, Mitsuhiro

Abstract

The ultra-cold muon technology developed for the muon g − 2 experiment at J-PARC provides a low-emittance μ$^{+}$ beam which can be accelerated and used for realistic collider experiments. We consider the possibility of new collider experiments by accelerating the μ$^{+}$ beam up to 1 TeV. Allowing the μ$^{+}$ beam to collide with a high-intensity e$^{−}$ beam at the TRISTAN energy, GeV, in a storage ring with the same size as TRISTAN (a circumference of 3 km), one can realize a collider experiment with the center-of-mass energy GeV, which allows the production of Higgs bosons through vector boson fusion processes. We estimate the deliverable luminosity with existing accelerator technologies to be at the level of 5 × 10$^{33}$ cm$^{−2}$ s$^{−1}$, with which the collider can be a good Higgs boson factory. μ$^{+}$μ$^{+}$ colliders up to TeV are also possible using the same storage ring. They have the capability of producing the superpartner of the muon up to TeV masses.

Published
2022

33. μTRISTAN

Author

Hamada, Yu, primary, Kitano, Ryuichiro, additional, Matsudo, Ryutaro, additional, Takaura, Hiromasa, additional, and Yoshida, Mitsuhiro, additional

Published
2022
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34. Lattice study of area law for double-winding Wilson loops

Author

Shibata Akihiro, Kato Seikou, Kondo Kei-Ichi, and Matsudo Ryutaro

Subjects
Physics, QC1-999
Abstract

We study the double-winding Wilson loops in the SU(N) Yang-Mills theory on the lattice. We discuss how the area law falloff of the double-winding Wilson loop average is modified by changing the enclosing contours C1 and C2 for various values of the number of color N. By using the strong coupling expansion, we evaluate the double-winding Wilson loop average in the lattice SU(N) Yang-Mills theory. Moreover, we compute the double-winding Wilson loop average by lattice Monte Carlo simulations for SU(2) and SU(3). We further discuss the results from the viewpoint of the Non-Abelian Stokes theorem in the higher representations.

Published
2018
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35. Double-winding Wilson loops in SU(N) Yang-Mills theory – A criterion for testing the confinement models –

Author

Matsudo Ryutaro, Kondo Kei-Ichi, and Shibata Akihiro

Subjects
Physics, QC1-999
Abstract

We examine how the average of double-winding Wilson loops depends on the number of color N in the SU(N) Yang-Mills theory. In the case where the two loops C1 and C2 are identical, we derive the exact operator relation which relates the doublewinding Wilson loop operator in the fundamental representation to that in the higher dimensional representations depending on N. By taking the average of the relation, we find that the difference-of-areas law for the area law falloff recently claimed for N = 2 is excluded for N ⩾ 3, provided that the string tension obeys the Casimir scaling for the higher representations. In the case where the two loops are distinct, we argue that the area law follows a novel law (N − 3)A1/(N − 1) + A2 with A1 and A2(A1 < A2) being the minimal areas spanned respectively by the loops C1 and C2, which is neither sum-ofareas (A1 + A2) nor difference-of-areas (A2 − A1) law when (N ⩾ 3). Indeed, this behavior can be confirmed in the two-dimensional SU(N) Yang-Mills theory exactly.

Published
2018
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36. Precision μ+μ+ and μ+e− elastic scatterings.

Author

Hamada, Yu, Kitano, Ryuichiro, Matsudo, Ryutaro, and Takaura, Hiromasa

Subjects
LUMINOSITY, PHYSICS
Abstract

The expected measurement precisions of elastic scattering cross sections are estimated for μ + μ + and μ + e colliders, which have recently been proposed as future realistic possibilities (μTRISTAN). Compared with contributions from possible new physics represented by higher-dimensional operators, we find that the measurements at a TeV energy μ + μ + collider can probe the scale of new physics up to O (100) TeV. A μ + e collider for the Higgs boson factory can also improve the electroweak precision test. For those studies, we assume the expected integrated luminosity at μTRISTAN, L int = 120 fb−1+ μ +) and 1 ab−1+ e ). [ABSTRACT FROM AUTHOR]

Published
2023
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42. 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

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