Marios Mattheakis (Matthaiakis) August, 2017 School of Engineering and Applied Sciences Harvard University Email: [email protected]scholar.harvard.edu/marios matthaiakis Education • Postdoctoral in Applied Physics present Harvard University USA – Postdoctoral Research: Optical propagation, optical excitations and plasmonics in two-dimensional materials and complex networks. • Ph.D in Advanced Physics December 2014 University of Crete Heraklion – PhD Thesis: Electromagnetic wave propagation in gradient index meta-materials, plasmonic systems and optical fiber networks. – Description: I studied analytically and computationally electromagnetic wave propagation through random photonic networks as well as the light-matter interaction with gain plasmonic systems. • M.Sc. in Advanced Physics March 2012 University of Crete Heraklion – Master Thesis: Wave propagation in networks of Luneburg lenses. • B.Sc. in Physics June 2010 University of Crete Heraklion – Diploma Thesis: Numerical Methods in Electromagnetics. Computational skills and knowledge • Programming Languages – Fortran, C/C ++ , Java • Computational Software Programs – COMSOL, MATLAB, MATHEMATICA • Office software suites – L A T E X, Microsoft Office, Open & Libre Office • Operating Systems – Windows, Linux, Unix
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Marios Mattheakis (Matthaiakis) August, 2017
School of Engineering and Applied SciencesHarvard University
• Postdoctoral in Applied Physics presentHarvard University USA
– Postdoctoral Research: Optical propagation, optical excitations and plasmonics in two-dimensional materialsand complex networks.
• Ph.D in Advanced Physics December 2014University of Crete Heraklion
– PhD Thesis: Electromagnetic wave propagation in gradient index meta-materials, plasmonic systems and opticalfiber networks.
– Description: I studied analytically and computationally electromagnetic wave propagation through randomphotonic networks as well as the light-matter interaction with gain plasmonic systems.
• M.Sc. in Advanced Physics March 2012University of Crete Heraklion
– Master Thesis: Wave propagation in networks of Luneburg lenses.
• B.Sc. in Physics June 2010University of Crete Heraklion
– Diploma Thesis: Numerical Methods in Electromagnetics.
Computational skills and knowledge
• Programming Languages
– Fortran, C/C++, Java
• Computational Software Programs
– COMSOL, MATLAB, MATHEMATICA
• Office software suites
– LATEX, Microsoft Office, Open & Libre Office
• Operating Systems
– Windows, Linux, Unix
Awards
• 2010Marie Curie Excellence Grand for the scientific project with title: ELECTRONCOMPLEXITY.
Invited Presentations
• March 16, 2016Seminar of Crete Center for Quantum Complexity & Nanotechnology at University of Crete.Title: Plasmonic periodic structures composed by 2D materials.
• September 17, 2015Colloquium in Wesleyan University.Title: Surface plasmons in active systems and 2D materials.
Conference and Summer School participation
• 16/05/2017 − 19/05/2017Mathematical Modeling of 2D Materials, Minneapolis, Minnesota, USA.Poster presentation: Epsilon-Near-Zero from plasmonic Dirac point: Theory and realization usingtwo-dimensional materials.
• 13/03/2017 − 17/03/2017APS March Meeting, New Orleans, Louisiana, USA.Oral presentation: Epsilon-Near-Zero from plasmonic Dirac point: Theory and realization usingtwo-dimensional materials.
• 25/02/2017Boston Photonics Centennial Conference, Cambridge, Massachusetts, USA.Poster presentation: Epsilon-Near-Zero from plasmonic Dirac point: Theory and realization usingtwo-dimensional materials.
• 5/07/2016 − 8/07/2016Nanosciences & Nanotechnologies (NN16), Thessaloniki, Greece.Oral presentation: Epsilon-Near-Zero and Plasmonic Dirac Point by using 2D materials.
• 17/09/2014 − 19/09/2014COMSOL conference in Cambridge, Cambridge, United Kingdom.Poster Presentation: Enhanced surface plasmon polariton propagation induced by active dielectrics.
• 17/07/2014 − 19/07/2014Fourth International Workshop on Statistical Mechanics and Dynamical Systems, Athens, Greece.Poster Presentation: Linear and nonlinear photonic rogue waves in complex transparent media.
• 14/07/2014 − 25/07/2014Fourth European Ph.D. Summer School and Workshop on “Mathematical Modeling of ComplexSystems, Athens, Greece.Poster Presentation: Linear and nonlinear photonic rogue waves in complex transparent media.
• 14/07/2014 − 25/07/2014Fourth European Ph.D. Summer School and Workshop on “Mathematical Modeling of ComplexSystems, Athens, Greece.Poster Presentation: Linear and nonlinear photonic rogue waves in complex transparent media.
• 07/07/2014 − 11/07/2014International Conference on Statistical Physics, organized by SigmaPhi Committee, Rhodes, Greece.Poster Presentation: Linear and nonlinear photonic rogue waves in complex transparent media.
• 18/03/2014 − 23/03/2014Dynamics Symposium, organized by the Max Planck Institute for Dynamics and Self Organization(Goettingen) on Mandarfen in Austria.
• 01/12/2013 − 05/12/2013Light in Disordered Photonic Media, organized by the Physikzentrum Bad Honnef, Germany.Poster Presentation: Observation of photonic rogue waves in strongly scattering random media.
• 15/07/2013 − 27/07/2013Third European Ph.D. School on “Mathematical Modeling of Complex Systems, organized by theDepartment of Physics, University of Crete, Greece.Oral Presentation: Linear Optical Rogue Waves in Disordered Photonic Networks.Poster Presentation: Linear Optical Rogue Waves in Disordered Photonic Networks.
• 27/08/2012 − 02/09/2012Third International Workshop on Statistical Mechanics and Dynamical Systems, organized by ITAP,Turunc, Turkey.Poster Presentation: Luneburg lens waveguide networks.
• 25/09/2011 − 30/09/2011Nanoantennas and Hybrid Quantum Systems, organized by the Physikzentrum Bad Honnef, Germany.
• 28/08/2011 − 11/09/2011Charged Particle Optics: Theory and Simulations (CPOT), organized by the Department of Physics,University of Crete, Greece.
• 18/07/2011 − 29/07/2011First European Ph.D. School on “Mathematical Modeling of Complex Systems, organized by theDepartment of Mathematics, University of Patras, Greece.
Work Experience
• 01/03/2015 − presentPostdoctoral Fellow in the School of Engineering and Applied Sciences, Harvard University.
• 01/10/2010 − 1/05/2011Researcher on Foundation for Research and Technology - Hellas (FORTH). Working for the scientific projectwith title: ELECTRONCOMPLEXITY.
Referee
I have refereed manuscripts in:
• Nano Letters
• Journal of the Optical Society of America A (JOSA A)
• Journal of Applied Physics
• Chaos, Solitons & Fractals
• IEEE Journal of Selected Topics in Quantum Electronics
• Wave Motion, Elsevier
• International Conference on New Material and Chemical Industry
• The Scientific Pages of Photonics and Optics
• European Physical Journal B
Teaching Experience
• Introduction to Programming (FORTRAN) (teaching assistant) 1/02/2014 − 11/06/2014University of Crete Greece
• Electromagnetism I (teaching assistant) 1/02/2013 − 10/06/2013University of Crete Greece
• Introduction to Programming (FORTRAN) (teaching assistant) 1/02/2011 − 1/06/2011University of Crete Greece
References
• Prof. Efthimios KaxirasDepartment of Physics and John A. Paulson School of Engineering and Applied Sciences, HarvardUniversity, USA.Email: [email protected]
• Prof. Giorgos TsironisDepartment of Physics, University of Crete, Greece.Email: [email protected]
Languages
• Greek (mother tongue)
• English (excellent)
Other Personal Information
Nationality: GreekDate of Birth: 26th of September 1984Place of Birth: Heraklion, CreteGender: Male
Publications
• S. N. Shirodkar, M. Mattheakis, P. Cazeaux, P. Narang, M. Soljacic, and E. Kaxiras, Visible quantumplasmons in in highly-doped few-layer graphene (submitted paper)
• C. A. Valagiannopoulos, M. Mattheakis, S. N. Shirodkar, and E. Kaxiras, Manipulating polarized light with aplanar slab of Black Phosphorus (submitted paper)
• M. Mattheakis, G. P. Tsironis, E. Kaxiras, Graphene and Active Metamaterials: Theoretical Methods andPhysical Properties, Nanoplasmonics - Fundamentals and Applications, edited by Gregory Barbillon, InTech(2017)
• M. Mattheakis, C. A. Valagiannopoulos, E. Kaxiras, Epsilon-Near-Zero behavior from Plasmonic DiracPoint: theory and realization using two-dimensional materials, Phys. Rev. B 94, 201404(R) (2016)
• M. Mattheakis, I. J. Pitsios, G. P. Tsironis, S. Tzortzakis, Extreme events in complex linear and nonlinearphotonic media, Chaos, Solitons & Fractals 84, 73-80 (2016)
• M. Mattheakis, T. Oikonomou, M. I. Molina, G. P. Tsironis, Phase transition in PT symmetric activeplasmonic systems, IEEE Journal of Selected Topics in Quantum Electronics 22, Vol.5, 1-7 (2015) (invitedissue)
• M. Mattheakis, G. P. Tsironis, Extreme waves and branching flows in optical media, In: J.F.R. Archilla, N.Jimenez, V.J. Sanchez-Morcillo, L.M. Garcıa-Raffi (eds.). Quodons in mica: nonlinear localized travellingexcitations in crystals, Springer series in materials science (2015) pp 425-454 (invited issue).
• F. Perakis, M. Mattheakis, G. P. Tsironis, Small-world networks of optical fiber lattices, J. Opt. 16, 102003(2014) (invited issue)
• C. Athanasopoulos, M. Mattheakis, G. P.Tsironis, Enhanced surface plasmon polariton propagation inducedby active dielectrics, Expert from the Proceedings of the 2014 COMSOL conference in Cambridge (2014).
• M. Mattheakis, G. P Tsironis, V. I. Kovanis, Luneburg lens waveguide networks, J. Opt. 14, 114005 (2012)(invited issue)