Relative C"-Numerical Ranges for Applications in Quantum Control and Quantum Information
Abstract
Motivated by applications in quantum information and quantum control, a new type of C"-numerical range, the relative C"-numerical range denoted WK(C,A), is introduced. It arises upon replacing the unitary group U(N) in the definition of the classical C"-numerical range by any of its compact and connected subgroups K ⊂ U(N). The geometric properties of the relative C"-numerical range are analysed in detail. Counterexamples prove its geometry is more intricate than in the classical case: e.g. WK(C,A) is neither star-shaped nor simply-connected. Yet, a well-known result on the rotational symmetry of the classical C"-numerical range extends to WK(C,A), as shown by a new approach based on Lie theory. Furthermore, we concentrate on the subgroup SU loc(2n) := SU(2) ... SU(2), i.e. the n-fold tensor product of SU(2), which is of particular interest in applications. In this case, sufficient conditions are derived for WK(C,A) being a circular disc centered at origin of the complex plane. Finally, the previous results are illustrated in detail for SU(2) SU(2).
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