Positive-definite Hermitian matrix

Hi,

For any Hermitian matrix **T**,

**z*** **T z** is real and is >= 0. The * denotes conjugate transpose.

I understand that if any of the eigenvalues of** T** are equal to zero, then **T** is positive semi-definite (**z*** **T z **>= 0).

What I don't get is why **T** is positive definite (**z*** **T z **> 0) iff all of it's eigen values are > 0; even if all eigenvalues are > 0, couldn't there still be a **z** which leads to semi-definiteness?

Thanks.

Re: Positive-definite Hermitian matrix

No, since is Hermitian it is diagonalizable, and if then .

Re: Positive-definite Hermitian matrix

Thanks.

Could you please relate the diagonalizability to the part that if **z***** T z** = 0 then** z** = 0?

Re: Positive-definite Hermitian matrix

We can write where is unitary and diagonal, containing the eigenvalues of . If then , but writing we have so and .