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Marios Mattheakis (Matthaiakis)

Contact

Marios Mattheakis (Matthaiakis)
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  • Bio & CV
  • Presentations
  • Publications
  • Collaborators
  • Branched Electronic Graphene Flow

    Branched electronic graphene flow

    Branching electronic flows of disordered Dirac solids

  • Photonic Extreme Events

    Extreme events in EM waves propagation via strong scattering random optical networks

  • Spatiotemporal plot of a turbulent chimera state with ML predictions

    Spatiotemporal plot of a turbulent chimera state with ML predictions

    Spatiotemporal plot of a turbulent chimera state with ML predictions

  • Quatnum plasmons in Li-intercalated graphene multilayers

    Quantum plasmons with optical-range frequencies in doped few-layer graphene

  • Plasmonic Dirac Point leads to Epsilon Near Zero behavior

    Plasmonic Dirac Point & ENZ

    Plasmonic Dirac Point leads to Epsilon Near Zero behavior

  • Black Phosphorus Stacking

    Black Phosphorus Stacking

    Manipulating polarized light with a planar slab of Black Phosphorus

  • Luneburg lens waveguide networks

  • Branching flow in EM wave propagation through disordered networks of weak Luneburg lenses

    Branching Flow in Optical Media

    Branching flow in EM wave propagation through disordered networks of weak Luneburg lenses

  • PT symmetry in plasmonic systems

    Phase Transition of SPPs propagation length under PT symmetric gain

  • Plasmons

    Magnetic Field Hz(x,y) at the SPP resonance angle

  • Plasmon Dispersion Relation

    Nanoplasmonics

    Graphene and Active Metamaterials: Theoretical Methods and Physical Properties

  • Dispersion Curve with Dirac Cone

    Universal behavior of dispersive Dirac cone in gradient index plasmonic metamaterials

    Dirac Cone in Dispersion Curve

  • Small-world networks of optical fiber lattices

    The dynamics of the wavepacket and the corresponding mean–square–displacement (MSD) as a function of time.

Contact

mariosmat (followed by @g.harvard.edu)
IACS Lab. G107, Harvard.

Recent Publications

  • Robustness of Machine Learning models with observers in predicting complex spatiotemporal behavior of chimera states
  • Physical Symmetries Embedded in Neural Networks
  • Homogenization of plasmonic crystals: Seeking the epsilon-near-zero behavior
  • Graphene epsilon-near-zero plasmonic crystals
  • Machine learning with observers predicts complex spatiotemporal behavior
  • Sensorless Node Architecture for Events Detection in Self-Powered Nanosensor Networks
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