Symplectic basis

In linear algebra, a standard symplectic basis is a basis ${\mathbf e}_i, {\mathbf f}_i$ of a symplectic vector space, which is a vector space with a nondegenerate alternating bilinear form $\omega$ , such that $\omega({\mathbf e}_i, {\mathbf e}_j) = 0 = \omega({\mathbf f}_i, {\mathbf f}_j), \omega({\mathbf e}_i, {\mathbf f}_j) = \delta_{ij}$ . A symplectic basis of a symplectic vector space always exists; it can be constructed by a procedure similar to the Gram–Schmidt process.^[1] The existence of the basis implies in particular that the dimension of a symplectic vector space is even if it is finite.

Notes

↑ Maurice de Gosson: Symplectic Geometry and Quantum Mechanics (2006), p.7 and pp. 12–13

References

da Silva, A.C., Lectures on Symplectic Geometry, Springer (2001). ISBN 3-540-42195-5.
Maurice de Gosson: Symplectic Geometry and Quantum Mechanics (2006) Birkhäuser Verlag, Basel ISBN 978-3-7643-7574-4.

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Symplectic basis

See also

Notes

References