Maximilian Weißflog explains a set-up to Australian guests during a lab tour

Postdoctoral candidates of Meta-Active

Maximilian Weißflog explains a set-up to Australian guests during a lab tour
Image: IRTG Meta-Active

Postdocs

Anonymous

Image: Private

Maria del Rocio CAMACHO MORALES

Research School of Physics, Australian National University

  • Start in Meta-Active: 
  • Fields of expertise: Nanophotonics, Metasurfaces, Nonlinear optics

Email: rocio.camacho@anu.edu.au

 

Zlata Fedorova

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Zlata FEDOROVA

Institute of Solid State Physics, Friedrich Schiller University  

  • Start in Meta-Active: Feb., 2023
  • Fields of expertise: 2D materials, nonlinear nanooptics, nanoplasmonics, topological photonics  

Email: zlata.fedorova@uni-jena.de

  • Utilizing resonant nanostructures for valley routing effects and tailoring nonlinear selection rules in monolayers of transition metal dichalcogenides

    Under the scope of my postdoctoral studies I investigate the nature of chiral dipole emitters in monolayers of transition metal dichalcogenides (TMD). The ultimate goal of my project is to achieve light routing effects and tailoring of linear and nonlinear selection rules in coupled photonic systems consisting of resonant nanostructures hybridized with monolayers of TMDs.

Associated PostDocs

Anonymous

Image: ASP

Martin HAFERMANN

Institute of Solid State Physics, Friedrich Schiller University

  • Start in Meta-Active: Jan., 2022
  • Fields of expertise: Ion-solid-interactions; Phase-change materials; Linear optics

Email: martin.hafermann@uni-jena.de

 

Anonymous

Image: ASP

Zelio FUSCO

College of Engineering and Computer Science, Research School of Electrical Energy and Materials Engineering (EEME), Australian National University

  • Start in Meta-Active: 2021 
  • Fields of expertise: Light-matter interactions, Nanoplasmonics, Photo-electrocatalysis, Energy storage and conversion, Material characterization, FDTD, FEM and DFT simulations

Email: zelio.fusco@anu.edu.au

  • Photocatalysis with large-scale disordered plasmonic metasurfaces

    This project focuses on the development of theoretical frameworks and experimental realization of large-scale disordered metasurfaces for plasmon-assisted photocatalysis. The aim of the project is to investigate the role of hot carriers and optical fields in selectively driving chemical reactions to produce renewable fuels at scale.

Anonymous

Image: ASP

Jinyong MA

Department of Electronic Materials Engineering, Research School of Physics, Australian National University

  • Start in Meta-Active: 
  • Field of expertise: Metasurface, Quantum Optics, Nanophotonics

Email: Jinyong.Ma@anu.edu.au

 

  • Quantum Metasurfaces

    Jihua's research focuses on quantum metasurfaces and aims to miniaturize the quantum optical devices. 

Anonymous

Image: ASP

Jihua ZHANG

Department of Electronic Materials Engineering, Research School of Physics, Australian National University

  • Start in Meta-Active: 
  • Field of expertise: Metasurface, nanofabrication, inverse design

Email: jihua.zhang@anu.edu.au

 

  • Enhancement of nonlinear effects using silicon plasmonic structures

    Jihua's research focuses on quantum metasurfaces and aims to miniaturize the quantum optical devices.