John C. Donahue scite author profile

John C. Donahue

4Publications

46Citation Statements Received

344Citation Statements Given

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186

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Affiliations

University of California, Santa Barbara, New York University, William & Mary

Publications

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Classical integrability of the zigzag model

Donahue

Dubovsky

2020

Phys. Rev. D

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The zigzag model is a relativistic N -body system arising in the high energy limit of the worldsheet scattering in adjoint two-dimensional QCD. We prove classical Liouville integrability of this model by providing an explicit construction of N charges in involution. Furthermore, we also prove that the system is maximally superintegrable by constructing N − 1 additional independent charges. All of these charges are piecewise linear functions of coordinates and momenta. The classical time delays are determined algebraically from this integrable structure. The resulting S-matrix is the same as in the N -particle subsector of a massless T T deformed fermion.

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Confining strings, infinite statistics, and integrability

Donahue

Dubovsky

2020

Phys. Rev. D

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We study confining strings in massive adjoint two-dimensional chromodynamics. Off-shell, as a consequence of zigzag formation, the resulting worldsheet theory provides a non-trivial dynamical realization of infinite quon statistics. Taking the high energy limit we identify a remarkably simple and novel integrable relativistic N -body system. Its symmetry algebra contains an additional "shadow" Poincaré subalgebra. This model describes the N -particle subsector of a TT -deformed massless fermion.

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From QCD Strings to WZW

Donahue

Dubovsky

Hernández-Chifflet

et al. 2019

J. High Energ. Phys.

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According to the Axionic String Anstaz (ASA) confining flux tubes in pure gluodynamics are in the same equivalence class as a new family of integrable non-critical strings, called axionic strings. In addition to translational modes, axionic strings carry a set of worldsheet axions transforming as an antisymmetric tensor under the group of transverse rotations. We initiate a study of integrable axionic strings at general number of space-time dimensions D. We show that in the infinite tension limit worldsheet axions should be described by a peculiar "pseudofree" theory-their S-matrix is trivial, but the corresponding action cannot be brought into a free form by a local field redefinition. This requirement fixes the axionic action to take a form of the O(D − 2) Wess-Zumino-Witten (WZW) model. arXiv:1812.07043v1 [hep-th]

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Universal Landau pole and physics below the 100 TeV scale

2017

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We reconsider the possibility that all standard model gauge couplings blow up at a common scale in the ultraviolet. The simplest implementation of this idea assumes supersymmetry and the addition of a single vector-like generation of matter fields around the TeV scale. We provide an up-to-date numerical study of this scenario and show that either the scale of the additional matter or the scale of supersymmetry breaking falls below potentially relevant LHC bounds. We then consider minimal extensions of the extra matter sector that raise its scale above the reach of the LHC, to determine whether there are cases that might be probed at a 100 TeV collider. We also consider the possibility that the heavy matter sector involves new gauge groups constrained by the same ultraviolet boundary condition, which in some cases can provide an explanation for the multiplicity of heavy states. We comment on the relevance of this framework to theories with dark and visible sectors.

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John C. Donahue

Classical integrability of the zigzag model

Confining strings, infinite statistics, and integrability

From QCD Strings to WZW

Universal Landau pole and physics below the 100 TeV scale

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