Call for Abstract

Scientific Program

10th International Conference and Exhibition on Lasers, Optics & Photonics, will be organized around the theme “An insight into the Recent Research and cutting-edge Technologies in Lasers, Optics and Photonics”

Optics 2018 is comprised of 14 tracks and 121 sessions designed to offer comprehensive sessions that address current issues in 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:Laser Systems

  • Track 1-1MID-IR, quantum cascade and THZ lasers
  • Track 1-2 Ultrafast chemical dynamics
  • Track 1-3Plasma technologies
  • Track 1-4 Fibre lasers and applications
  • Track 1-5Waveguide lasers
  • Track 1-6High Intensity lasers
  • Track 1-7Quantum information and measurement
  • Track 1-8Semiconductor/diode lasers and LEDs
  • Track 1-9Type-II quantum-well and super lattice lasers
  • Track 1-10Gas lasers, chemical lasers and excimer lasers

Track 2:Optics and Lasers in Medicine

  • Track 2-1Lasers in ophthalmology
  • Track 2-2Clinical technologies and systems
  • Track 2-3Biomedical spectroscopy
  • Track 2-4Artificial vision and color
  • Track 2-5Optometry
  • Track 2-6Tissue optics
  • Track 2-7Optical coherence tomography
  • Track 2-8Biomedical optics
  • Track 2-9Lasers in tissue engineering: Laser tissue interaction
  • Track 2-10Lasers in cancer diagnosis and detection
  • Track 2-11Laser microscopies
  • Track 2-12Lasers in dentistry
  • Track 2-13Optoacoustic imaging of biological tissues

Track 3:Optoelectronics

  • Track 3-1Optoelectronic integrated circuits
  • Track 3-2Optoelectronics business opportunities
  • Track 3-3Optoelectronic devices and materials
  • Track 3-4Semiconductor materials and applications
  • Track 3-5MEMS and NEMS
  • Track 3-6Optoelectronic Instrumentation, measurement and metrology
  • Track 3-7Optical fibre sensors/detectors
  • Track 3-8Semiconductor nanostructures for electronics and optoelectronics

Track 4:Optical Communications and Networking

  • Track 4-1Fibre optics communication
  • Track 4-2Optical signal communication
  • Track 4-3Design management and optical networks
  • Track 4-4Novel optical networks elements
  • Track 4-5Optical fiber manufacturers and business analysis
  • Track 4-6Advances in optical fiber communications

Track 5:Advancements in Photonics

  • Track 5-1Power photonics and green photonics
  • Track 5-2Display technology
  • Track 5-3Photonics crystals and photonic crystal fibres
  • Track 5-4Photodectors/ sensors and imaging
  • Track 5-5Photonics and ultrafast electronics
  • Track 5-6Photonics materials and devices

Track 6:Nanophotonics and Biophotonics

  • Track 6-1Spectroscopy of nanostructures
  • Track 6-2Metamaterials
  • Track 6-3Nanoplasmonics
  • Track 6-4Nanodevices and nanophotonics
  • Track 6-5Biosensing and biophotonics
  • Track 6-6Nanofabrication and graphene technology
  • Track 6-7Photo detectors/solar cells
  • Track 6-8Applications of nanotechnology in optics

Track 7:Quantum Science and Technology

  • Track 7-1Quantum interferometry and quantum metrology
  • Track 7-2Quantum simulation
  • Track 7-3Quantum enabled sensors
  • Track 7-4Quantum nanoscience
  • Track 7-5Quantum cryptography
  • Track 7-6Quantum mechanics
  • Track 7-7Nonlinear quantum systems and quantum-optical technologies

Track 8:Technologies in Lasers, Optics and Photonics

  • Track 8-1Fibre optics components, equipment and systems
  • Track 8-2Optics for astronomy
  • Track 8-3Optical manipulation techniques, spectroscopies, and scattering techniques
  • Track 8-4Lasers and semiconductors
  • Track 8-5Metrology instrumentation
  • Track 8-6Optical coatings
  • Track 8-7Precision fabrication
  • Track 8-8Microscopes and telescopes
  • Track 8-9Optical materials and substrates
  • Track 8-10Column laser technology

Track 9:Applications and Trends in Optics and Photonics

  • Track 9-1Adaptive optics
  • Track 9-2Optical instrumentation
  • Track 9-3Optical fabrication
  • Track 9-4Optics in astronomy and astrophysics
  • Track 9-5Integrated photonics
  • Track 9-6Diffractive optics
  • Track 9-7Computational optical sensing and imaging
  • Track 9-8Optical imaging
  • Track 9-9Applied optics

Track 10:Fiber Laser Technology

  • Track 10-1Fiber lasers
  • Track 10-2Free space communications
  • Track 10-3Fiber laser applications
  • Track 10-4Vertical external cavity surface-emitting lasers (vecsels)
  • Track 10-5Fiber laser manufacturing in industries and business opportunities
  • Track 10-6Fiber lasers and amplifiers
  • Track 10-7Fiber laser materials, design, fabrication and characterization
  • Track 10-8Fiber laser devices and components

Track 11:Optical Physics

  • Track 11-1Quantum gases
  • Track 11-2Theoretical solid-state optics
  • Track 11-3Quantum information and control
  • Track 11-4Ultrafast lasers
  • Track 11-5Quantum nano-optics
  • Track 11-6Theoretical-computational optical physics and applied mathematics
  • Track 11-7Optical geometrics

Track 12:Optical Fiber

  • Track 12-1Advanced optical sensors
  • Track 12-2Advanced optical fibers
  • Track 12-3Optical products and market analysis

Track 13:Surface Enhanced Spectroscopy (SES)

  • Track 13-1Surface enhanced Raman Scattering
  • Track 13-2Surface Enhanced Hyper Raman scattering
  • Track 13-3Tip enhanced Raman Scattering and related spectroscopy and microscopy
  • Track 13-4Surface enhanced resonance Raman Scattering
  • Track 13-5Surface enhanced spectroscopy on semiconductors and dielectrics
  • Track 13-6Plasmon mechanisms of surface enhanced spectroscopy
  • Track 13-7Other surface enhanced optical phenomena
  • Track 13-8 Surface enhanced and tip enhanced spectroscopy of carbon materials (graphene, nanotubes, fullerenes and others)
  • Track 13-9Single molecule detection by SES
  • Track 13-10Surface enhanced terahertz spectroscopy
  • Track 13-11Surface enhanced fluorescence and luminescence
  • Track 13-12Surface enhanced Infrared absorption

Track 14:Optical Metrology

  • Track 14-1Optical metrology in industrial design and production engineering
  • Track 14-2Optical instrumentation and systems
  • Track 14-3Software-systems for optical metrology and inspection
  • Track 14-4Modelling aspects in optical metrology
  • Track 14-5High-resolution metrology
  • Track 14-6Videometrics, range imaging and applications
  • Track 14-73D-Sensing and visualization
  • Track 14-8Autonomic navigation
  • Track 14-9O3A: Optics for Arts, Architecture, and Archaeology
  • Track 14-10Inspection, characterization and imaging of biomaterials and tissues
  • Track 14-11Multi-modal imaging and inspection technologies
  • Track 14-12Material recognition and verification
  • Track 14-13Defect recognition and verification
  • Track 14-14Image processing, Image fusion and Image modelling