Research interests

I am professor at the Tyumen State University, in Tyumen, Russian Federation.
I conduct scientific research in the laboratory of photonics and microfluidics, where I work on Deep Learning applied to image processing, with applications in microfluidic and biology. In the past my scientific research has evolved around my interest in Quantum Optics, Quantum Mechanics, and Quantum (and Classical) Information Theory.
I have been postdoctoral fellow in the Nonlinear Photonics Group, at the Centre Énergie Matériaux Télécommunications, part of the Institut National de la Recherche Scientifique (INRS), in Montreal, Canada. I have lead a project aimed at the realization of a quantum key distribution system, in collaboration with prof. Louis Salvail, from the Laboratoir d'Informatique Théorique et Quantique, at Université de Montréal.
I have also been involved in other projects related to quantum optics, non-linear processes and single photon generation, that have lead to the generation of four-photons entangled quantum state.
During a previous post-doctoral fellowship, at Univesrsité de Montréal, in the Laboratoir d'Informatique Théorique et Quantique, I have worked with Gilles Brassard at an extension of the complexity analysis of quantum algorithms beyond the query complexity model.
During that period I also had the opportunity to attend the lectures of Patrick Hayden on Quantum Information Theory, while he was at the McGill University in Montreal, and to attend the meetings of his group as a guest. His work has attracted my attention toward the applications of Quantum Information Theory to studies in other fields of theoretical physics, such as the Black Holes Information Paradox, and the Renormalization Group Information Flow.
In the previous post-doctoral internship at the École normale Superiéure de Cachan, in the LPQM group I have conducted experiments on free-space Quantum Key Distribution, and I have started to work as theoretician. Douring this period I have consolidated my knowledge of Information Theory. Formalising and solving practical aspects of Quantum Key Distribution protocols has helped me to clarify some deeper aspects of Quantum Mechanics.
Douring my DPhil (PhD) project at the University of Oxford, in the Photonic Nanomatirials Group I have developed more insights about the experimental and theoretical aspects of Quantum Information Processing, working with the NV colour defect in diamond.
I have done my undergraduate studies in Università di Napoli "Federico II". Starting with my graduation thesis project, I have worked at experimental projects in Quantum Optics and Quantum Key Distribution both in academic and industrial environments.

 

List of publications (conferences proceedings not included)

( see Google Scholar profile)
(ORCID iD iconsee ORCID profile)

Fabio Grazioso, Anzhelika Aleksandrovna Atsapina, Gardoon Lukman Obaeed Obaeed, Natalia Anatolievna Ivanova,
Deep Learning Tools for the Automatic Measurement of Coverage Area of Water-Based Pesticide Surfactant Formulation on Plant Leaves
Agriculture, 13 (12), 2182 (2023)

Fabio Grazioso, Viktor M. Fliagin, Natalia A. Ivanova,
Measurement of geometrical parameters of the crude-oil/water interface propagating in microfluidic channels using deep learning tools
Interfacial Phenomena and Heat Transfer 10, (4) 57-74 (2022)

Fabio Grazioso
An introduction to Artificial Intelligence and Deep Learning
ResearchGate preprint (2022)

Christian Reimer, Michael Kues, Piotr Roztocki, Benjamin Wetzel, Fabio Grazioso, Brent E. Little, Sai T. Chu, Tudor Johnston, Yaron Bromberg, Lucia Caspani, David J. Moss, Roberto Morandotti,
Generation of multiphoton entangled quantum states by means of integrated frequency combs
Science 351, 1176 (2016)

Fabio Grazioso,
Introduction to quantum information theory and outline of two applications to physics: the black hole information paradox and the renormalization group information flow
ArXiv:1507.00957

Pankaj K. Jha, Hichem Eleuch, Fabio Grazioso,
Ultra-short strong excitation of two-level systems
Optics Communications, vol 331, pag 198 (2014)
ArXiv:1302.6541

F. Grazioso, F. Grosshans,
Quantum-key-distribution protocols without sifting that are resistant to photon-number-splitting attacks
Phys. Rev. A 88, 052302 (2013)
ArXiv:1306.6061

F. Grazioso, B.R. Patton, P. Delaney, M.L. Markham, D.J. Twitchen, and J.M. Smith,
Measurement of the full stress tensor in a crystal using photoluminescence from point defects: The example of nitrogen vacancy centers in diamond
Appl. Phys. Lett. 103, 101905 (2013)
ArXiv:1110.3658

B. R. Patton, P. R. Dolan, F. Grazioso, M. B. Wincott, J. M. Smith, M. L. Markham, D. J. Twitchen, Y. Zhang, E. Gu, M. D. Dawson, B. A. Fairchild, A. D. Greentree, S. Prawer,
Optical properties of single crystal diamond microfilms fabricated by ion implantation and lift-off processing
Diamond and Related Materials, 21, 16-23, (2012).

J.M. Smith, F. Grazioso, B.R Patton, P.R Dolan, M.L. Markham, D.J Twitchen,
Optical properties of a single-colour centre in diamond with a green zero-phonon line
New J. Phys. 13, 045005, (2011)

F. Grazioso, B.R. Patton, J.M. Smith,
A high stability beam-scanning confocal optical microscope for low temperature operation
Rev. Sci. Instrum. 81, 093705 (2010).

P.R. Dolan, G.M. Hughes, F.Grazioso, B.R. Patton, and J.M. Smith,
Femtoliter tunable optical cavity arrays
Opt. Lett., 35, 3556-3558, (2010).

 

last update Sep 2023