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$SO(k)\times SO(n-k)$
-symmetry
For a smooth strongly convex Minkowski norm 
$F:\mathbb {R}^n \to \mathbb {R}_{\geq 0}$
, we study isometries of the Hessian metric corresponding to the function 
$E=\tfrac 12F^2$
. Under the additional assumption that F is invariant with respect to the standard action of 
$SO(k)\times SO(n-k)$
, we prove a conjecture of Laugwitz stated in 1965. Furthermore, we describe all isometries between such Hessian metrics, and prove Landsberg Unicorn Conjecture for Finsler manifolds of dimension 
$n\ge 3$
such that at every point the corresponding Minkowski norm has a linear 
$SO(k)\times SO(n-k)$
-symmetry.
