Аннотация:
In this paper we study a quadratic Poisson algebra structure on the space of
bilinear forms on $\mathbb{C}^n$ with the property that for any $n, m \in\mathbb{N} $ such that $nm = N$, the
restriction of the Poisson algebra to the space of bilinear forms with a block-upper-triangular
matrix composed from blocks of size $m\times m$ is Poisson. We classify all central
elements and characterise the Lie algebroid structure compatible with the Poisson algebra.
We integrate this algebroid obtaining the corresponding groupoid of morphisms of
block-upper-triangular bilinear forms. The groupoid elements automatically preserve
the Poisson algebra. We then obtain the braid group action on the Poisson algebra as
elementary generators within the groupoid. We discuss the affinisation and quantisation
of this Poisson algebra, showing that in the case $m=1$ the quantum affine algebra is
the twisted $q$-Yangian for $\mathfrak{o}_n$ and for $m = 2$ is the twisted $q$-Yangian for $(\mathfrak{sp}_{2n})$. We
describe the quantum braid group action in these two examples and conjecture the form
of this action for any $m > 2$. Finally, we give an $R$-matrix interpretation of our results
and discuss the relation with Poisson–Lie groups.
Поступила в редакцию: 16.11.2011 Принята в печать: 21.04.2013