Multiphoton intrapulse interference phase scan

In matrix theory, Sylvester's determinant theorem is a theorem useful for evaluating certain types of determinants. It is named after James Joseph Sylvester, who stated this theorem without proof.^[1]

The theorem states that if A, B are matrices of size p × n and n × p respectively, then

${\displaystyle \det(I_{p}+AB)=\det(I_{n}+BA),\ }$

where I_a is the identity matrix of order a.^[2][3]

This can be seen for invertible A, B by conjugating I + AB by A^-1, then extended to arbitrary square matrices by density of invertible matrices, and then to arbitrary rectangular matrices by adding zero column or row vectors as necessary.

It is closely related to the Matrix determinant lemma and its generalization. It is the determinant analogue of the Woodbury matrix identity for matrix inverses.

Proof

The theorem may be proven as follows. Let ${\displaystyle M}$ be a matrix comprising the four blocks ${\displaystyle -A}$, ${\displaystyle B}$, ${\displaystyle I_{n}}$ and ${\displaystyle I_{p}}$

${\displaystyle M={\begin{pmatrix}I_{p}&-A\\B&I_{n}\end{pmatrix}}}$.

Block LU decomposition of ${\displaystyle M}$ yields

${\displaystyle M={\begin{pmatrix}I_{p}&0\\B&I_{n}\end{pmatrix}}{\begin{pmatrix}I_{p}&-A\\0&I_{n}+BA\end{pmatrix}}}$

from which

${\displaystyle \det(M)=\det(I_{n}+BA)}$

follows. Decomposing ${\displaystyle M}$ to an upper and a lower triangular matrix instead,

${\displaystyle M={\begin{pmatrix}I_{p}+AB&-A\\0&I_{n}\end{pmatrix}}{\begin{pmatrix}I_{p}&0\\B&I_{n}\end{pmatrix}}}$,

yields

${\displaystyle \det(M)=\det(I_{p}+AB)}$.

This proves

${\displaystyle \det(I_{n}+BA)=\det(I_{p}+AB)}$.

Applications

This theorem is useful in developing a Bayes estimator for multivariate Gaussian distributions.

The identity also finds applications in random matrix theory by relating determinants of large matrices to determinants of smaller ones.^[4]

References

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