Call for Abstract

Scientific Program

11th International Conference and Exhibition on Lasers, Optics & Photonics, will be organized around the theme “From Concepts to Devices

Mail us at: opticslaserphotonics@usaconference.org”

Optics 2019 is comprised of 21 tracks and 121 sessions designed to offer comprehensive sessions that address current issues in Optics 2019.

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 1-2Ultrafast chemical dynamics
  • Track 1-3Plasma technologies
  • Track 1-4Fibre 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 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:Advancements in Photonics

  • Track 12-1Power photonics and green photonics
  • Track 12-2Display technology
  • Track 12-3Photonics crystals and photonic crystal fibres
  • Track 12-4Photodectors/ sensors and imaging
  • Track 12-5Photonics and ultrafast electronics
  • Track 12-6Photonics materials and devices

Track 13:Optical Fiber

  • Track 13-1Advanced optical sensors
  • Track 13-2Advanced optical fibers
  • Track 13-3Optical products and market analysis

Track 14:Nanophotonics and Biophotonics

  • Track 14-1Spectroscopy of nanostructures
  • Track 14-2Metamaterials
  • Track 14-3Nanoplasmonics
  • Track 14-4Nanodevices and nanophotonics
  • Track 14-5Biosensing and biophotonics
  • Track 14-6Nanofabrication and graphene technology
  • Track 14-7Photo detectors/solar cells
  • Track 14-8Applications of nanotechnology in optics

Track 15:Surface Enhanced Spectroscopy (SES)

  • Track 15-1Surface enhanced Raman Scattering
  • Track 15-2Surface Enhanced Hyper Raman scattering
  • Track 15-3Tip enhanced Raman Scattering and related spectroscopy and microscopy
  • Track 15-4Surface enhanced resonance Raman Scattering
  • Track 15-5Surface enhanced spectroscopy on semiconductors and dielectrics
  • Track 15-6Plasmon mechanisms of surface enhanced spectroscopy
  • Track 15-7Other surface enhanced optical phenomena
  • Track 15-8Surface enhanced and tip enhanced spectroscopy of carbon materials (graphene, nanotubes, fullerenes and others)
  • Track 15-9Single molecule detection by SES
  • Track 15-10Surface enhanced terahertz spectroscopy
  • Track 15-11Surface enhanced fluorescence and luminescence
  • Track 15-12Surface enhanced Infrared absorption

Track 16:Quantum Science and Technology

  • Track 16-1Quantum interferometry and quantum metrology
  • Track 16-2Quantum simulation
  • Track 16-3Quantum enabled sensors
  • Track 16-4Quantum nanoscience
  • Track 16-5Quantum cryptography
  • Track 16-6Quantum mechanics
  • Track 16-7Nonlinear quantum systems and quantum-optical technologies

Track 17:Optical Metrology

  • Track 17-1Optical metrology in industrial design and production engineering
  • Track 17-2Optical instrumentation and systems
  • Track 17-3Software-systems for optical metrology and inspection
  • Track 17-4Modelling aspects in optical metrology
  • Track 17-5High-resolution metrology
  • Track 17-6Videometrics, range imaging and applications
  • Track 17-73D-Sensing and visualization
  • Track 17-8Autonomic navigation
  • Track 17-9O3A: Optics for Arts, Architecture, and Archaeology
  • Track 17-10Inspection, characterization and imaging of biomaterials and tissues
  • Track 17-11Multi-modal imaging and inspection technologies
  • Track 17-12Material recognition and verification
  • Track 17-13Defect recognition and verification
  • Track 17-14Image processing, Image fusion and Image modelling

Track 18:Technologies in Lasers, Optics and Photonics

  • Track 18-1Fibre optics components, equipment and systems
  • Track 18-2Optics for astronomy
  • Track 18-3Optical manipulation techniques, spectroscopies, and scattering techniques
  • Track 18-4Lasers and semiconductors
  • Track 18-5Metrology instrumentation
  • Track 18-6Optical coatings
  • Track 18-7Precision fabrication
  • Track 18-8Microscopes and telescopes
  • Track 18-9Optical materials and substrates
  • Track 18-10Column laser technology

Track 19:Applications and Trends in Optics and Photonics

  • Track 19-1Adaptive optics
  • Track 19-2Optical instrumentation
  • Track 19-3Optical fabrication
  • Track 19-4Optics in astronomy and astrophysics
  • Track 19-5Integrated photonics
  • Track 19-6Diffractive optics
  • Track 19-7Computational optical sensing and imaging
  • Track 19-8Optical imaging
  • Track 19-9Applied optics

Track 20:Fiber Laser Technology

  • Track 20-1Fiber lasers
  • Track 20-2Free space communications
  • Track 20-3Fiber laser applications
  • Track 20-4Vertical external cavity surface-emitting lasers (vecsels)
  • Track 20-5Fiber laser manufacturing in industries and business opportunities
  • Track 20-6Fiber lasers and amplifiers
  • Track 20-7Fiber laser materials, design, fabrication and characterization
  • Track 20-8Fiber laser devices and components