%0 Journal Article %1 nylen %A Nylen, Peter %A Tam, Tin-Yau %A Uhlig, Frank %D 1993 %J Linear and Multilinear Algebra %K eigenvalues matrix principal.submatrix %N 1 %P 69--78 %R 10.1080/03081089308818276 %T On the Eigenvalues of Principal Submatrices of Normal, Hermitian and Symmetric Matrices %V 36 %X Let λ1…λ n be distinct complex numbers and let λ i1…λ in−1 ,i= 1,…n, be complex numbers, not necessarily distinct. We show that the problem of determining when a normal n × n matrix A exists satisfying σ(A) =λ1…λ n and σ(Ai )=λ i1…λ in−1 ,i=1,…,n where Ai is the (n−1) × (n−1) principal submatrix obtained from A by deleting its ith row and column, is equivalent to determining whether a certain n×n matrix constructed from the λ i ,λ ij is unistochastic. This result, coupled with the characterization of unistochastic 3 × 3 matrices in 2, allows a characterization of the possible eigenvalues of the three 2 × 2 principal submatrices of a normal, Hermitian or real symmetric 3 × 3 matrix. Further results obtained involve the possible eigenvalues of a single (n−1) × (n−1) principal submatrix of a normal n × n matrix and the possible eigenvalues of a pair of (n−1) × (n−1) principal submatrices of a normal, Hermitian or real symmetric n × n matrix. Some of these results are extended to the case where the λ i are not distinct.

@article{nylen, abstract = { Let λ1…λ n be distinct complex numbers and let λ i1…λ in−1 ,i= 1,…n, be complex numbers, not necessarily distinct. We show that the problem of determining when a normal n × n matrix A exists satisfying σ(A) ={λ1…λ n } and σ(Ai )={λ i1…λ in−1 },i=1,…,n where Ai is the (n−1) × (n−1) principal submatrix obtained from A by deleting its ith row and column, is equivalent to determining whether a certain n×n matrix constructed from the λ i ,λ ij is unistochastic. This result, coupled with the characterization of unistochastic 3 × 3 matrices in [2], allows a characterization of the possible eigenvalues of the three 2 × 2 principal submatrices of a normal, Hermitian or real symmetric 3 × 3 matrix. Further results obtained involve the possible eigenvalues of a single (n−1) × (n−1) principal submatrix of a normal n × n matrix and the possible eigenvalues of a pair of (n−1) × (n−1) principal submatrices of a normal, Hermitian or real symmetric n × n matrix. Some of these results are extended to the case where the λ i are not distinct. }, added-at = {2017-02-01T04:44:09.000+0100}, author = {Nylen, Peter and Tam, Tin-Yau and Uhlig, Frank}, biburl = {https://www.bibsonomy.org/bibtex/2b49ef3a4925bbb0a486fc6a631033686/ytyoun}, description = {On the eigenvalues of principal submatrices of normal, hermitian and symmetric matrices: Linear and Multilinear Algebra: Vol 36, No 1}, doi = {10.1080/03081089308818276}, interhash = {f4c464c7f3bf5226d5d03e25fba61a08}, intrahash = {b49ef3a4925bbb0a486fc6a631033686}, journal = {Linear and Multilinear Algebra}, keywords = {eigenvalues matrix principal.submatrix}, number = 1, pages = {69--78}, timestamp = {2017-02-01T08:41:14.000+0100}, title = {On the Eigenvalues of Principal Submatrices of Normal, {Hermitian} and Symmetric Matrices}, volume = 36, year = 1993 }