HW 03: Difference between revisions

Problem

If ${\displaystyle \left\langle \phi _{n}|\phi _{m}\right\rangle =\delta _{mn}}$ and ${\displaystyle \phi _{n}\,\!}$ span the space of functions for which ${\displaystyle x(t)\,\!}$ and ${\displaystyle y(t)\,\!}$ are members and ${\displaystyle x(t)=\sum _{n}a_{n}\phi _{n}(t)\,\!}$ and ${\displaystyle y(t)=\sum _{m}b_{m}\phi _{m}(t)\,\!}$, then show

1. ${\displaystyle \left\langle x|y\right\rangle =\sum _{n}a_{n}b_{n}^{*}}$
2. ${\displaystyle \left\langle x|x\right\rangle =\sum _{n}\left|a_{n}\right|^{2}}$

Notes

${\displaystyle \left\langle x|y\right\rangle =\int _{-\infty }^{\infty }x(t)y(t)^{*}\,dt}$

• This notation is called the Bra ${\displaystyle \langle \phi |}$ Ket ${\displaystyle |\psi \rangle }$, or Dirac notation. It denotes the inner product.

Solution

${\displaystyle \int _{-\infty }^{\infty }\sum _{n}a_{n}\phi _{n}(t)\sum _{m}b_{m}\phi _{m}(t)^{*}\,dt}$	${\displaystyle =\sum _{n}\sum _{m}a_{n}b_{m}^{*}\int _{-\infty }^{\infty }\phi _{n}(t)\phi _{m}(t)^{*}\,dt}$
	${\displaystyle =\sum _{n}\sum _{m}a_{n}b_{m}^{*}\left\langle \phi _{n}(t)|\phi _{m}(t)^{*}\right\rangle }$
	${\displaystyle =\sum _{n}\sum _{m}a_{n}b_{m}^{*}\delta _{nm^{*}}}$
	${\displaystyle =\sum _{n}a_{n}b_{n}^{*}}$

• Note ${\displaystyle \delta _{nm^{*}}=\delta _{nm}}$

${\displaystyle \int _{-\infty }^{\infty }\sum _{n}a_{n}\phi _{n}(t)\sum _{m}a_{m}\phi _{m}(t)^{*}\,dt}$	${\displaystyle =\sum _{n}\sum _{m}a_{n}a_{m}^{*}\int _{-\infty }^{\infty }\phi _{n}(t)\phi _{m}(t)^{*}\,dt}$
	${\displaystyle =\sum _{n}\sum _{m}a_{n}a_{m}^{*}\left\langle \phi _{n}(t)|\phi _{m}(t)^{*}\right\rangle }$
	${\displaystyle =\sum _{n}\sum _{m}a_{n}a_{m}^{*}\delta _{nm}}$
	${\displaystyle =\sum _{n}\left|a_{n}\right|^{2}}$