English

The ${\cal N}=2,4$ Supersymmetric Linear $W_{\infty}[\lambda]$ Algebras for Generic $\lambda$ Parameter

High Energy Physics - Theory 2024-01-23 v2

Abstract

The four different kinds of currents are given by the multiple (β,γ)(\beta,\gamma) and (b,c)(b,c) ghost systems with a multiple product of derivatives. We determine their complete algebra where the structure constants depend on the deformation parameter λ\lambda appearing in the conformal weights of above fields nontrivially and depend on the generic spins h1h_1 and h2h_2 appearing on the left hand sides in the (anti)commutators. By taking the linear combinations of these currents, the N=4{\cal N}=4 supersymmetric linear W[λ]W_{\infty}[\lambda] algebra (and its N=4{\cal N}=4 superspace description) for generic λ\lambda is obtained explicitly. Moreover, we determine the N=2{\cal N}=2 supersymmetric linear W[λ]W_{\infty}[\lambda] algebra for arbitrary λ\lambda. As a by product, the λ\lambda deformed bosonic W1+[λ]×W1+[λ+12]W_{1+\infty}[\lambda] \times W_{1+\infty}[\lambda+\frac{1}{2}] subalgebra (a generalization of Pope, Romans and Shen's work in 19901990) is obtained. The first factor is realized by (b,c)(b,c) fermionic fields while the second factor is realized by (β,γ)(\beta,\gamma) bosonic fields. The degrees of the polynomials in λ\lambda for the structure constants are given by (h1+h22)(h_1+h_2-2). Each w1+w_{1+\infty} algebra from the celestial holography is reproduced by taking the vanishing limit of other deformation prameter qq at λ=0\lambda=0 with the contractions of the currents.

Keywords

Cite

@article{arxiv.2309.01537,
  title  = {The ${\cal N}=2,4$ Supersymmetric Linear $W_{\infty}[\lambda]$ Algebras for Generic $\lambda$ Parameter},
  author = {Changhyun Ahn and Man Hea Kim},
  journal= {arXiv preprint arXiv:2309.01537},
  year   = {2024}
}

Comments

61 pages;The footnotes 4, 15, 19 and 20 are added and to appear in JHEP

R2 v1 2026-06-28T12:12:09.838Z