Green's function: Difference between revisions

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'''(To be continued)'''
==Reference==
==Reference==
P. Roman, ''Advanced Quantum Theory'', Addison-Wesley, Reading, Mass. (1965) Appendix 4.
P. Roman, ''Advanced Quantum Theory'', Addison-Wesley, Reading, Mass. (1965) Appendix 4.

Revision as of 07:17, 8 January 2009

In physics and mathematics, Green's function is an auxiliary function in the solution of linear partial differential equations. The function is named for the British mathematician George Green (1793 – 1841)

Let Lx be a given linear differential operator in n variables x = (x1, x2, ..., xn), then the Green function of Lx is the function G(x,y) defined by

where δ(x-y) is the Dirac delta function. Once G(x,y) is known, any differential equation involving Lx is formally solved,

The proof is by verification,

where in the last step the defining property of the Dirac delta function is used.

The Green function of a linear differential operator may be seen as its inverse, which becomes clear from the matrix equation analogy. Let and be n×n matrices connected by

then the solution of the matrix-vector equation is

(To be continued)

Reference

P. Roman, Advanced Quantum Theory, Addison-Wesley, Reading, Mass. (1965) Appendix 4.