Please use this identifier to cite or link to this item: http://hdl.handle.net/10263/7232
Title: Differential and subdifferential properties of symplectic eigenvalues
Authors: Mishra, Hemant Kumar
Keywords: symplectic eigenvalues
Differential and subdifferential properties
Issue Date: Apr-2021
Publisher: Indian Statistical Institute, New Delhi
Citation: 120p.
Series/Report no.: ISI Ph. D Thesis;TH521
Abstract: A real 2n × 2n matrix M is called a symplectic matrix if M T JM = J, where J is the 2n × 2n matrix given by J = ( O In −In O ) and In is the n × n identity matrix. A result on symplectic matrices, generally known as Williamson’s theorem, states that for any 2n × 2n positive definite matrix A there exists a symplectic matrix M such that M T AM = D ⊕ D where D is an n × n positive diagonal matrix with diagonal entries 0 < d1(A) ≤ · · · ≤ dn(A) called the symplectic eigenvalues of A. In this thesis, we study differentiability and analyticity properties of symplectic eigenvalues and corresponding symplectic eigenbasis. In particular, we prove that simple symplectic eigenvalues are infinitely differentiable and compute their first order derivative. We also prove that symplectic eigenvalues and corresponding symplectic eigenbasis for a real analytic curve of positive definite matrices can be chosen real analytically. We then derive an analogue of Lidskii’s theorem for symplectic eigenvalues as an application of our analysis. We study various subdifferential properties of symplectic eigenvalues such as Fenchel subdifferentials, Clarke subdifferentials and Michel-Penot subdifferentials. We show that symplectic eigenvalues are directionally differentiable and derive the expression of their first order directional derivatives.
Description: Dissertation under the supervision of Prof. Tanvi Jain
URI: http://hdl.handle.net/10263/7232
Appears in Collections:Theses

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