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*This function gives the Hermitian matrix of order 3.
*This function gives the Hermitian matrix of order 3.
*A Hermitian matrix is defined as the square matrix with complex entries which is equal to its own conjugate transpose.
*A Hermitian matrix is defined as the square matrix with complex entries which is equal to its own conjugate transpose.
*i.e., the matrix A is Hermitian if and only if <math>A=A^T</math>, where <math>A^T</math> denotes the conjugate transpose, which is equivalent to the condition <math> a_{ij}=\bara^{ji}</math>.
*i.e., the matrix A is Hermitian if and only if <math>A=A^T</math>, where <math>A^T</math> denotes the conjugate transpose, which is equivalent to the condition <math> a_{ij}=\bar a^{ji}</math>.
*A hermetian matrix is also called as self-adjoint matrix.
*A hermetian matrix is also called as self-adjoint matrix.
*The following matrix is the example of 3x3 Hermitian matrix:
*The following matrix is the example of 3x3 Hermitian matrix: