Call for Abstract

Scientific Program

9th International Conference on Optics, Photonics & Lasers , will be organized around the theme “Revving up the advances in the science of Optics, Photonics and Lasers”

Euro Optics 2018 is comprised of 17 tracks and 99 sessions designed to offer comprehensive sessions that address current issues in Euro Optics 2018.

Submit your abstract to any of the mentioned tracks. All related abstracts are accepted.

Register now for the conference by choosing an appropriate package suitable to you.

Track 1:Lasers in Medicine

  • Track 1-1Biomedical Optics
  • Track 1-2Optometry
  • Track 1-3Lasers in Cancer Diagnosis and Detection
  • Track 1-4Lasers in Dentistry
  • Track 1-5Laser Microscopies
  • Track 1-6Lasers in Tissue Engineering: Laser Tissue Interaction
  • Track 1-7Laser Imaging and Diagnosis
  • Track 1-8Lasers Repair Skin and Eyes
  • Track 1-9Tissue Optics
  • Track 1-10Optical Coherence Tomography
  • Track 1-11Biomedical Spectroscopy
  • Track 1-12Clinical Technologies and Systems
  • Track 1-13Lasers in Ophthalmology

Track 2:Industrial Applications of Laser and Photonics-Overview, Challenges and Current Trends

  • Track 2-1Laser Applications to Chemical, Security and Environmental Analysis
  • Track 2-2X-ray Optics and Applications
  • Track 2-3Frontiers in Optical Metrology and Sensing
  • Track 2-4Biophotonics: Photonic Solutions for Better Health Care
  • Track 2-5Silicon Photonics: from Fundamental Research to Manufacturing
  • Track 2-6Organic Electronics and Photonics: Fundamentals and Devices

Track 4:Optical Fiber

  • Track 4-1Advanced Optical Fibers
  • Track 4-2Advanced Optical Sensors

Track 5:Surface Enhanced Spectroscopy

  • Track 5-1Surface Enhanced Raman Scattering
  • Track 5-2Surface Enhanced Hyper Raman Scattering
  • Track 5-3Plasmon Mechanisms of Surface Enhanced Spectroscopy
  • Track 5-4Surface Enhanced Spectroscopy on Semiconductors and Dielectrics
  • Track 5-5Surface Enhanced Resonance Raman Scattering
  • Track 5-6Tip Enhanced Raman Scattering and Related Spectroscopy and Microscopy
  • Track 5-7Surface Enhanced Infrared Absorption
  • Track 5-8Surfaceenhanced Fluorescence and Luminescence
  • Track 5-9Surface Enhanced Terahertz Spectroscopy
  • Track 5-10Single Molecule Detection by SES
  • Track 5-11Surface Enhanced and Tip enhanced Spectroscopy of Carbon Materials (graphene, nanotubes, fullerenes and others)

Track 6:Laser Systems

  • Track 6-1High-Power Lasers
  • Track 6-2Waveguide Lasers
  • Track 6-3Laser Solution for Space and the Earth
  • Track 6-4Gas Lasers, Chemical Lasers and Excimer Lasers
  • Track 6-5MID-IR, Quantum Cascade and THZ lasers
  • Track 6-6Ultrafast Chemical Dynamics
  • Track 6-7Plasma Technologies
  • Track 6-8Fibre Lasers and Applications
  • Track 6-9Quantum Information and Measurement
  • Track 6-10LEDs

Track 7:Quantum Optics

  • Track 7-1Quantum Photonics
  • Track 7-2Quantum Dots
  • Track 7-3Quantum Lasers
  • Track 7-4Quantum Optoelectronics
  • Track 7-5Dipolar Quantum Gases and Liquids
  • Track 7-6Quantum Indeterminacy

Track 8:Optical Communications and Networking

  • Track 8-1Fibre Optics Communication
  • Track 8-2Optical Signal Communication
  • Track 8-3Advances in Optical Fiber Communications
  • Track 8-4Novel Optical Networks Elements
  • Track 8-5Design Management and Optical Networks

Track 9:Optics in Astronomy and Astrophysics

  • Track 9-1IR applications
  • Track 9-2Aperture Synthesis
  • Track 9-3Interferometry
  • Track 9-4Adaptive Optics for Astronomy and Applications

Track 10:Optical Imaging and Sensing

  • Track 10-13D Printed Optics and Additive Photonic Manufacturing
  • Track 10-2Digital Optics for Immersive Displays
  • Track 10-3Unconventional Optical Imaging
  • Track 10-4Optical Micro- and Nanometrology
  • Track 10-5Optics, Photonics and Digital Technologies for Imaging Applications
  • Track 10-6Optical Sensing and Detection
  • Track 10-7Imaging in Biology and Medicine

Track 12:Nano and Qauntum Sciences

  • Track 12-1Metamaterials
  • Track 12-2Nanophotonics
  • Track 12-3Advances in Ultrafast Condensed Phase Physics
  • Track 12-4Quantum Technologies

Track 13:Photonics

  • Track 13-1Graphene and 2D materials
  • Track 13-2Photonic Crystal Materials and Devices
  • Track 13-3Organic Phontonics
  • Track 13-4Biophotonics and Neurophotonics
  • Track 13-5Silicon Photonics
  • Track 13-6Photonics for Solar Energy Systems
  • Track 13-7Green Photonics
  • Track 13-8Integrated Photonics

Track 14:Fiber Laser Technology

  • Track 14-1Laser Color/Flare Marking Technology
  • Track 14-2500W CW Fiber Laser
  • Track 14-3Dual-Pulsed Laser

Track 15:Applied Industrial Optics

  • Track 15-1LED/Laser lighting
  • Track 15-2Optics and Energy
  • Track 15-3Autonomous/Automated Systems
  • Track 15-4Remote Sensing
  • Track 15-5Non-destructive Evaluation/Non-invasive testing
  • Track 15-6Biomimetics
  • Track 15-7Smartphone Optics
  • Track 15-8Wearable Technology

Track 16:Optoelectronics

  • Track 16-1Optoelectronic Devices and Materials
  • Track 16-2Semiconductor Materials and Applications
  • Track 16-3MEMS and NEMS
  • Track 16-4Optoelectronic Instrumentation, Masurement and Metrology
  • Track 16-5Semiconductor Nanostructures for Electronics and Optoelectronics
  • Track 16-6Optoelectronic Integrated Circuits
  • Track 16-7Nano-optoelectronics

Track 17:Lasers and Nonlinear Optics

  • Track 17-1Micro-Structured and Specialty Optical Fibres
  • Track 17-2Semiconductor Lasers and Laser Dynamics
  • Track 17-3Glass Photonics: Materials through Applications
  • Track 17-4Nonlinear Optics and its Applications
  • Track 17-5Adaptive Optics and Computational Imaging