\textbf{Dr Ana Bel\'en Sainz} is shortly to be appointed as Group Leader for the Foundational Underpinnings of Quantum Technologies group at ICTQT, Gdansk. She has previously held postdoctoral positions at the University of Bristol (UK) and ICFO (Castellfdefels, Spain). Dr. Sainz is an expert on the nonclassical properties of Nature. Her research has focused on developing an operational understanding of these nonclassical features (see e.g. (1),(3) and (5)), which enables their use as a resource for information processing tasks. Dr. Sainz also has expertise on the development of Resource Theories, which enable the quantification of the nonclassicality (i.e. the power) of these resources. Her research moreover includes the search for an understanding of both the possibilities and limitations of quantum resources (see e.g. (2) and (4) ) for technological applications.
\textbf{Dr Ana Bel\'en Sainz} is shortly to be appointed as Group Leader for the Foundational Underpinnings of Quantum Technologies group at ICTQT, Gdansk. She has previously held postdoctoral positions at the University of Bristol (UK) and ICFO (Castellfdefels, Spain). Dr. Sainz is an expert on the nonclassical properties of Nature. Her research has focused on developing an operational understanding of these nonclassical features (see e.g. (1),(3) and (5)), which enables their use as a resource for information processing tasks. Dr. Sainz also has expertise on the development of Resource Theories, which enable the quantification of the nonclassicality (i.e. the power) of these resources. Her research moreover includes the search for an understanding of both the possibilities and limitations of quantum resources (see e.g. (2) and (4) ) for technological applications.
\textit{\color{gray}\textbf{Publications:} (1) A. Ac\'in, T. Fritz, A. Leverrier and ---. A Combinatorial Approach to Nonlocality and Contextuality. Comm. Math. Phys. 334:533, 2015. (2) T. Fritz, ---, R. Augusiak, J. B. Brask, R. Chaves, A. Leverrier and ---. Ac\'in. Local Orthogonality as a multipartite principle for quantum correlations. Nat. Comm. 4:2263, 2013. (3) ---, N. Brunner, D. Cavalcanti, P. Skrzypczyk and T. V\~artesi. Postquantum steering. Phys. Rev. Lett. 115:190403, 2015. (4) ---, Y. Guryanova, A. Ac\'ian and M. Navascu\~as. Almost quantum correlations violate the no-restriction hypothesis. Phys. Rev. Lett. 120:200402, 2018. (5) Matty J. Hoban and --. A channel-based framework for steering, non-locality and beyond. New J. Phys. 20:053048, 2018.}
\textit{\color{gray}\textbf{Publications:} (1) A. Ac\'in T. Fritz, A. Leverrier and ---. A Combinatorial Approach to Nonlocality and Contextuality. Comm. Math. Phys. 334:533, 2015. (2) T. Fritz, ---, R. Augusiak, J. B. Brask, R. Chaves, A. Leverrier and A. Ac\'in. Local Orthogonality as a multipartite principle for quantum correlations. Nat. Comm. 4:2263, 2013. (3) ---, N. Brunner, D. Cavalcanti, P. Skrzypczyk and T. V\'ertesi. Postquantum steering. Phys. Rev. Lett. 115:190403, 2015. (4) ---, Y. Guryanova, A. Ac\'in and M. Navascu\'es. Almost quantum correlations violate the no-restriction hypothesis. Phys. Rev. Lett. 120:200402, 2018. (5) Matty J. Hoban and ---. A channel-based framework for steering, non-locality and beyond. New J. Phys. 20:053048, 2018.}
