Plasmonics, Magnetics and Optical Technologies


  • Theory and principle of magnetoplasmonics
  • Theory and principle of magneto-optic surface plasmon resonance
  • Synthesis of magnetoplasmonic core-shell nano-structured materials
  • Theoretical modelling of magnetoplasmonics material
  • Characterization of magnetoplasmonic materials
  • Oxide and inverse spinel material-based magnetoplasmonics hybrid nanostructures
  • Magnetoplasmonic nanocomposites, nanoparticles and nanocrystalline materials
  • Magnetoplasmonic material-based biosensors, nanofluidic and nanofabrication
  • Magnetoplasmonics and nanobiotechnology/nanobiomaterials and nanomedicine
  • Magneto-optic surface plasmon resonance biosensors and potential applications
  • Magnetoplasmonics materials for environmental monitoring, surveying, and imaging
  • Photonic crystal based magnetoplasmonic devices
  • Graphene-based magnetoplasmonic materials and devices
  • Optomagnetic Biodetection
  • Remote magneto-mechanical nanoactuation (MEMS)
  • Thermoplasmonics


  • Si-based materials and magnetoplasmonics
  • Green photonics, energy, and related technologies
  • Ultrafast optics and applications
  • Sensing, communications, and information processing
  • Nonlinear optics, nanophotonics and plasmonics
  • Optical telecommunications
  • Photonic materials
  • Photonics technology entrepreneurship and innovation
  • Photonic theory design and simulations


  • Маgneto-optics / Magneto-photonics
  • Magnetism in biology and medicine
  • Soft and Hard Magnetic materials and applications
  • Magnetic Sensors, high frequency & power devices
  • Spin electronics & applications
  • Magnetic recording
  • Magnetic thin films & multilayers
  • Magnetization dynamics
  • Modeling and computational magnetism
  • Microscopy, Imaging & Characterization
  • Shape-memory alloys and Magnetocaloric effect
  • Diluted Magnetic Semiconductors and Oxides

Youth Education, Innovation and Entrepreneurship


  • Confidence and Morale boosting by overcoming fear.
  • Competence in expanding new skills by searching alternatives.
  • Financial literacy and capabilities for expansion and diversification.
  • Building emotional quotient with peers, Organizations and Associations.
  • Resilience and continuous improvement process.
  • Reduction of tax and regulatory barriers for new entrepreneurs.
  • Expansion and Promotion of mentorship programs
  • Providing room for internships, volunteering for solid foundation.
  • Expanding technical viability and resources
  • Incentives and support from Government authorities, Local Bodies.


  • Channelizing young minds through Research and Development.
  • Addressing skill gap through specialized global technologies.
  • Effective upskilling through awareness and cognitive mapping
  • Encompassing technical, leadership and domain-based learning.
  • Focus on “Human Engineering” through connections.
  • Training in digital and incremental skills.
  • Continuous upgrading communication and soft skills.
  • Designing principles for eco-systemic change.
  • Radical changes through process design and innovation.
  • Enabling coherence through ages and stage levels.