4.7 Article

D term and the structure of pointlike and composed spin-0 particles

期刊

PHYSICAL REVIEW D
卷 96, 期 11, 页码 -

出版社

AMER PHYSICAL SOC
DOI: 10.1103/PhysRevD.96.114013

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资金

  1. National Science Foundation [1406298]
  2. Division Of Physics
  3. Direct For Mathematical & Physical Scien [1406298] Funding Source: National Science Foundation

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This work deals with form factors of the energy-momentum tensor (EMT) of spin-0 particles and the unknown particle property D term related to the EMT, and it is divided into three parts. The first part explores free, weakly and strongly interacting theories to study EMT form factors with the following findings. (i) The free Klein-Gordon theory predicts for the D term D = -1. (ii) Even infinitesimally small interactions can drastically impact D. (iii) In strongly interacting theories one can encounter large negative D though notable exceptions exist, which include Goldstone bosons of chiral symmetry breaking. (iv) Contrary to common belief one cannot arbitrarily add total derivatives to the EMT. Rather the EMT must be defined in an unambiguous way. The second part deals with the interpretation of the information content of EMT form factors in terms of 3D densities with the following results. (i) The 3D-density formalism is internally consistent. (ii) The description is subject to relativistic corrections but those are acceptably small in phenomenologically relevant situations including nucleons and nuclei. (iii) The freefield result D = -1 persists when a spin-0 boson is not pointlike but heuristically given some internal structure. The third part investigates the question of whether such giving of an extended structure can be implemented dynamically, and it has the following insights. (i) We construct a consistent microscopic theory which, in a certain parametric limit, interpolates between extended and pointlike solutions. (ii) This theory is exactly solvable which is rare in 3 thorn 1 dimensions, admits nontopological solitons of Q-ball type, and has a Gaussian field amplitude. (iii) The interaction of this theory belongs to a class of logarithmic potentials which were discussed in the literature, albeit in different contexts including beyond-standardmodel phenomenology, cosmology, and Higgs physics.

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