Given a cardinal $\kappa,$ recall that $X \subset \kappa$ is called fresh (over $V$), if $X \notin V,$ but $X \cap \alpha \in V$ for all $\alpha < \kappa.$
Question. Is it consistent that there exists a generic extension $V[G]$ of $V$ (for some suitable $V$), such that:
(A) $V$ and $V[G]$ have the same cardinals and cofinalities,
(B) $V$ and $V[G]$ have the same bounded subsets of $\aleph_\omega,$
(C) There exists a fresh subset $X \in V[G]$ of $\aleph_\omega$ (over $V$), such that $V[G]=V[X],$ and $V[G]$ is a minimal generic extension of $V?$
Remark. See A minimal Prikry-type forcing for singularizing a measurable cardinal and Prikry-type forcing and minimal $α$-degree, where some similar results for a large singular cardinal are proved.
