I would appreciate if one could help me figure out this problem.
I have a matrix $G$ (for simplicity assume square matrix $n\times n$). I know that if I multiply $G$ with a unitary matrix $U$ as ($A = GU$), the resultant matrix has the same distribution as $G$, i.e., the distribution of the singular values of $G$ and $A$ are equal/identical.
Now let's assume $k<n$ and $V_{n\times k}$ is a semi-unitary matrix ($V^H V = I_{k\times k}$). I am interested in the distribution of the singular values of $B=GV$. Clearly, $B$ has $k$ singular values. Is there anyway to make connection between the singular values of $B$ and $G$.
Any help/hint/reference is appreciated.
Let $\sigma_1\geq\cdots\geq \sigma_n$ be the singular values of $G$ and let $x\in \mathbb{C}^k$ be a unitary vector. Then $x^*(B^*B)x=(Vx)^*(G^*G)(Vx)=y^*(G^*G)y$ where $y$ is a unitary vector. Then $x^*(B^*B)x\in [\sigma_n^2,\sigma_1^2]$ and the non-zero singular values of $B$ are in $[\sigma_n,\sigma_1]$.