Karabacak, Özkan

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Karabacak O.
Ozkan, Karabacak
Karabacak,Ozkan
Karabacak,O.
Karabacak Ö.
Karabacak, Özkan
Karabacak, Ozkan
Karabacak, ÖZKAN
O. Karabacak
K.,Ozkan
Özkan Karabacak
ÖZKAN KARABACAK
K., Özkan
Karabacak,Ö.
Karabacak, O.
Karabacak, Ö.
KARABACAK, ÖZKAN
Ö. Karabacak
K., Ozkan
KARABACAK, Özkan
Ozkan Karabacak
Özkan KARABACAK
Job Title
Doç. Dr.
Email Address
ozkan.karabacak@khas.edu.tr
ORCID ID
0000-0002-8350-193
Scopus Author ID
24824407000
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2

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    Measurement-Based Control for Minimizing Energy Functions in Quantum Systems
    (Elsevier, 2023) Karabacak, Özkan; Rahman, Salahuddin Abdul; Karabacak, Ozkan; Wisniewski, Rafal
    In variational quantum algorithms (VQAs), the most common objective is to find the minimum energy eigenstate of a given energy Hamiltonian. In this paper, we consider the general problem of finding a sufficient control Hamiltonian structure that, under a given feedback control law, ensures convergence to the minimum energy eigenstate of a given energy function. By including quantum non-demolition (QND) measurements in the loop, convergence to a pure state can be ensured from an arbitrary mixed initial state. Based on existing results on strict control Lyapunov functions, we formulate a semidefinite optimization problem, whose solution defines a non-unique control Hamiltonian, which is sufficient to ensure almost sure convergence to the minimum energy eigenstate under the given feedback law and the action of QND measurements. A numerical example is provided to showcase the proposed methodology. Copyright (c) 2023 The Authors. This is an open access article under the CC BY-NC-ND license (https://creativecommons.org/licenses/by-nc-nd/4.0/)
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    Article
    Citation Count: 0
    Certification of almost global phase synchronization of all-to-all coupled phase oscillators
    (Pergamon-Elsevier Science Ltd, 2023) Karabacak, Özkan; Kivilcim, Aysegul; Koksal-Ersoz, Elif; Ilhan, Ferruh; Karabacak, Ozkan
    Coupled oscillators may exhibit almost global phase synchronization, namely their phases tend to asymp-totically overlap for almost all initial conditions. We consider certification of this property using Rantzer's dual Lyapunov approach with sum of squares (SOS) programming. To this aim, we use a stereographic transformation from a hypertorus to an Euclidean space. For the case of all-to-all coupling, this transformation converts the problem of certifying stability into the problem of certifying divergence of almost all solutions to infinity. We show that the latter can be solved using a polynomial Lyapunov density, which can be constructed via SOS programming. This leads to the certification of almost global phase synchronization of all-to-all coupled phase oscillators. We apply our method to an example of coupled phase oscillators and to an example of coupled van der Pol oscillators, and show that it can support the existing tools of local stability analysis by ensuring almost global phase synchronization.