2D Nanophotonics

Researchers

4

2

Accepted patents

Accepted patentsobtained during the
last 10 years

Indexed publications

55 Indexed publicationsobtained during the
last 10 years

Internal colaborations

  • 55 Co-publications Nº of co-publications
    in last 10 years
  • Co-supervised postdoc Nº of co-supervised post-docs in the last 5 years
  • 4 Co-supervised thesis Nº of co-supervised
    thesis in last 5 years
  • 1 Joint project underway Nº of currently
    ongoing projects
  • 4 Joint projects in the past Nº of projects in last 5 years, that already finished
  • Same nat or internal network Nº of collaboration networks in last 10 years

Description

The research topics of 2D Nanophotonics group are focused on light-matte interaction taking place in 2D materials.

The latter present slabs or (atomic) layers with the thickness significantly smaller than the wavelength of light in free space (such as graphene or monolayers/multilayers of van der Waals materials).

2D materials support a rich family polaritons, presenting collective dipolar oscillations coupled to electromagnetic fields.

Polaritons in 2D materials can give rise to very interesting and exotic phenomena, such as, for instance, light compression to deeply subwavelength volumes (nanofocusing), negative refraction, anomalous (hyperbolic) wavefronts, superlensing, strong coupling between light and molecules, etc.

Main researcher

Alexey Nikitin

Other researchers

Contact information

Donostia-San Sebastian 20018

Go to website

Research center

Donostia International Physics Center

Other info

Events

2D Nanophotonics DFT of Phonon polaritons in vdw materials Nanogune Pablo Alonso (U. Oviedo), Near-field microscopy Valentyn Volkov (MIPT, Russia) Luis Martín Moreno (U. Zaragoza), Theory International GI GI UBDX GI PV
Nonstructural collaboration / informal Joint project underway Joint projects in the past Intention to begin a joint project Co-supervised thesis Co-publications Co-supervised postdoc Same nat or internal network 2D Nanophotonics Chiral and topological photonics Nanomagnetism andmagnetoplasmonics Nanooptics Theory of Nanophotonics Group

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Data-driven economy and digital society Data-driven economy and digital society High-performance processing (classical and quantum) Data communications, always and everywhere Security and safety for society Security and safety for society Advanced sensing and imaging techniques Manipulating THz radiation on the nanoscale Advanced quality control systems Empowering smart, efficient industry (aerospace, automotive, etc.)
Advanced materials and processes Energy efficiency Optical identification of the organic compositions low power consumption optoelectronic devices Energy Health Biosciences Advanced manufacturing
Nanomaterials New optical materials Opto-electronics (lasers & detectors) Plasmonics Integrated photonics Optical communications systems Optical probes Advanced spectroscopy and imaging techniques Optical engineering Infrared & Raman spectroscopy Sensing of organic materials Light manipulation of matter Image analysis and processing Light-matter interaction and spectroscopy Theory for scattering near-field microscopy Artificial materials and metamaterials Photonic materials Imaging & Spectrosopy Biophotonics Photonics devices and engineering Nanophotonics
  • 2D materials
  • Graphene
  • Polaritons
  • Phonons
  • Plasmons
  • Electromagnetic theory
  • Photonics devices and engineering
  • Opto-electronics (lasers & detectors)
  • Integrated photonics
  • Optical communications systems
  • Optical probes
  • Optical engineering
  • Nanophotonics
  • Opto-electronics (lasers & detectors)
  • Plasmonics
  • Artificial materials and metamaterials
  • Nanomaterials
  • Photonic materials
  • Nanomaterials
  • Artificial materials and metamaterials
  • Plasmonics
  • New optical materials
  • Light manipulation of matter
  • Infrared & Raman spectroscopy
  • Imaging & Spectrosopy
  • Advanced spectroscopy and imaging techniques
  • Infrared & Raman spectroscopy
  • Image analysis and processing
  • Light-matter interaction and spectroscopy
  • Theory for scattering near-field microscopy
  • Biophotonics
  • Sensing of organic materials

Computational wokstations in the DIPC IT center

  • Rainer Hillenbrand, Nanooptics group, Nanogune
  • Javier Aizpurua, CFM
  • Ion Errea, UPV/EHU
  • Luis Martin Moreno, University of Zaragoza
  • Pablo Alonso Gonzalez, University of Oviedo
  • Vitaliy Goryashko, University of Uppsala
  • Valentyn Volkov, Moscow Institute of Physics and Technology
  • Igor Aharonovich, University of Sydney
  • Sergio Gutiérrez Rodrigo, Centro Universitario de la Defensa de Zaragoza
  • Viktoriia Babicheva, University of New Mexico
  • Qiaoliang Bao, Monash University
  • Denis Bandurin, MIT
  • Alexey Kuzmenko, University of Geneva
  • Energy
  • low power consumption optoelectronic devices
  • Health Biosciences
  • Optical identification of the organic compositions
  • Advanced manufacturing
  • Advanced materials and processes
  • Energy efficiency
  • Data-driven economy and digital society
  • Data communications, always and everywhere
  • High-performance processing (classical and quantum)
  • Security and safety for society
  • Advanced sensing and imaging techniques
  • Manipulating THz radiation on the nanoscale
  • Empowering smart, efficient industry (aerospace, automotive, etc.)
  • Advanced quality control systems