It seems that holomorphic (or rational) maps play a crucial role to relate the following data: 1. Instanton in a 2 dimensional (2d) complex Projective Space $$\mathbb{P}^1$$ 2. Instanton in a 2 dimensional (2d)complex Projective Space $$\mathbb{P}^n$$ 3. Instanton in an infinite-dimensional Kahler manifold, the loop group, $$ΩG$$ which is the loops on the structure group $G$. 4. Instanton in a 4 dimensional (4d) Yang Mills (YM) theory with the group $G$. > **Question 1**: What are the constructions of **holomorphic (or rational) maps $F$** from 1. to 2.: >(this shall be more straightforward), $$ F_{1 \to 2}: \mathbb{P}^j \to \mathbb{P}^n, $$ from 2. to 3.: $$ F_{2 \to 3}: \mathbb{P}^n \to ΩG, $$ from 2. to 4. $$ F_{2 \to 4}: \mathbb{P}^n \to G \text{ on YM instantons}? $$ Do we need to fix a particular structure group $G$? (Like special unitary groups?) > **Question 2**: For the above maps, $F_{I \to J}$, is that the instanton number 1 of the theory-$I$ always maps to the instanton number 1 of the theory-$J$? (Namely what is the ratio of the instanton numbers of the maps? Is that always 1:1?)