COMPLEX SUBMANIFOLDS OF ALMOST COMPLEX EUCLIDEAN SPACES
Copyright policy )COMPLEX SUBMANIFOLDS OF ALMOST COMPLEX EUCLIDEAN SPACES
We prove that a compact Riemann surface can be realized as a pseudo-holomorphic curve of $(\mathbb{R}^4,J)$, for some almost complex structure $J$ if and only if it is an elliptic curve. Furthermore we show that any (almost) complex $2n$-torus can be holomorphically embedded in $(\mathbb{R}^{4n},J)$ for a suitable almost complex structure $J$. This allows us to embed any compact Riemann surface in some almost complex Euclidean space and to show many explicit examples of almost complex structure in $\mathbb{R}^{2n}$ which can not be tamed by any symplectic form.
7 pages. To be appear in Q. J. Math
- University of Turin Italy
- Polytechnic University of Turin Italy
Mathematics - Differential Geometry, Differential Geometry (math.DG), Mathematics - Symplectic Geometry, FOS: Mathematics, Symplectic Geometry (math.SG), 32Q60 (Primary), 32Q65 (Secondary)
Mathematics - Differential Geometry, Differential Geometry (math.DG), Mathematics - Symplectic Geometry, FOS: Mathematics, Symplectic Geometry (math.SG), 32Q60 (Primary), 32Q65 (Secondary)
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