Optical Fiber Technology
The use of fibre optics in telecommunications and widespread area networking has been shared for many years, but more in recent times fibre optics have become increasingly prevalent in industrial data communications systems as well. High data rate capabilities, noise rejection and electrical isolation are just a few of the significant features that make fibre optic technology ideal for use in industrial and marketable systems.

• O3A Optics for Arts, Architecture, and Archaeology
• Optometry
• Quantum Lasers
• Optoelectronics and Microelectronics
• Optical Materials
• Rare earth doped optical fibre
• Optical fibre near infrared spectroscopy
• Adaptive optics
• Mode-selective Photonic Lanterns from Multicore Fibres
• Fiber optics components, equipment and systems
• Column laser technology
• Optics for astronomy

Optical Imaging and Sensing
Fibre-optic communication is a method of communicating information from one place to another by directing pulses of light through an optical fibre. Optical fibre is used by several telecommunications companies to transfer telephone signals, Internet communication, and cable television signals.

• Growth of thin films by vapour deposition
• Nano photonics and Bio photonics
• Nano and Quantum Sciences
• Fibre optic transmitter
• Fibre optic cable
• Receivers, Repeaters and Amplifiers

Laser System

• Waveguide lasers
• Semiconductor diode lasers and LEDs
• Type-II quantum-well and super lattice lasers
• High Intensity lasers
• Plasma technologies
• Fiber lasers and applications
• MID-IR, quantum cascade and THZ lasers
• lasers, Gas chemical lasers and exciter lasers
• Quantum information and measurement
• Type-II quantum-well and super lattice lasers
• Ultra-fast chemical dynamics

Optical Communications and Networking

• Fibre Optics Communication
• Optical Signal Communication
• Advances in Optical Fiber Communications
• Novel Optical Networks Elements
• Design Management and Optical Networks

Trending Technologies in Lasers, Optics and Photonics

• Lasers and semiconductors
• Optical coatings
• Optical manipulation techniques, spectroscopies, and scattering techniques
• Metrology instrumentation
• Optical materials and substrates
• Precision fabrication
• Microscopes and telescopes

Quantum Nano Science and Nano Physics

• Quantum Nanomechanical systems
• Quantum phenomena with biomolecules & nanoparticles
• Quantum-enhanced molecule metrology
• Quantum decoherence
• Matter-wave technologies
• Electron Quantum Optics
• Quantum Dots
• Quantum Nanowires
• Non-equilibrium Nanophysics

Quantum Optics

• Quantum Photonics
• Quantum Optoelectronics
• Dipolar Quantum Gases and Liquids
• Quantum Indeterminacy

Future Drifts in Lasers and Optics

• Critical Infrastructures Security
• Laser Applications to Chemical, Security and Environmental Analysis
• Diamond based Photonics
• Optics for Solar Energy
• Metamaterials
• Optics and Photonics for Energy and the Environment
• High Intensity Lasers and High Field Phenomena
• Quantum nano-optics
• Bio-Optics: Design and Application
• Advanced imaging for photonic materials

Lasers in Medicine

• Lasers in tissue engineering Laser tissue interaction
• Lasers in ophthalmology
• Opt acoustic imaging of biological tissues
• Optical coherence tomography
• Clinical technologies and systems
• Lasers in cancer diagnosis and detection
• Lasers in dentistry
• Tissue optics
• Biomedical optics
• Biomedical spectroscopy
• Laser microscopies
• Artificial vision and color

Photonics

• Graphene and 2D materials
• Photonic Crystal Materials and Devices
• Organic Phontonics
• Biophotonics and Neurophotonics
• Silicon Photonics
• Photonics for Solar Energy Systems
• Green Photonics
• Integrated Photonics

Applied Industrial Optics

• LED/Laser lighting
• Optics and Energy
• Autonomous/Automated Systems
• Remote Sensing
• Non-destructive Evaluation/Non-invasive testing
• Biomimetics
• Smartphone Optics
• Wearable Technology

Optical artificial intelligence and symbolic communication
AI academics have produced many tools to solve the most challenging teething troubles in computer science. Many of their discoveries have been adopted by conventional computer science and are no longer considered a part of AI effectives-- sharing, interactive, graphical user interfaces and the computer mouse, rapid development milieus.

• Role of a Measurement Plane to Monitor and Manage QOS in Optical Access Networks
• Health care
• Finance and economics
• Military
• Art
• Low-loss Fibre-bundle-type Fan-inFan-out Device for 6-mode 19-core Fibre
• Erbium Doped Fibre Amplifier with Passive Temperature Compensation

Optics in Astronomy and Astrophysics

• IR applications
• Aperture Synthesis
• Interferometry
• Adaptive Optics for Astronomy and Applications

Optoelectronics

• Optoelectronic devices and materials
• Semiconductor materials and applications
• Optoelectronics business opportunities
• Optoelectronic integrated circuits
• Optoelectronic Instrumentation, measurement and metrology
• Semiconductor nanostructures for electronics and optoelectronics
• MEMS and NEMS

Lasers and Nonlinear Optics

• Micro-Structured and Specialty Optical Fibres
• Semiconductor Lasers and Laser Dynamics
• Glass Photonics: Materials through Applications
• Nonlinear Optics and its Applications
• Adaptive Optics and Computational Imaging

Fiber Laser Technology
The fibre laser technology is a technology where the fibre laser uses the optical fibre as the active medium which is been doped with the rare earth elements like neodymium, holmium, yttrium, thulium, erbium, and praseodymium. One should not have to be worried about the type of earth metal which is being used, the only thing which as to be remembered is that the fibre is being used at the centre.

• Laser Color/Flare Marking Technology
• 500W CW Fiber Laser
• Dual-Pulsed Laser

Surface Enhanced Spectroscopy
SES is the technique which involves a reaction of chemical interactions and enormous electromagnetic fields near a surface. It is very sensitive as well as selective and has been exploited in physics, chemistry and biology and medicine. This method is one of the most enormously developing and important technique in the present world. In this method they use Nano sized roughened metal surfaces which are basically made of silver and gold.

• Surface Enhanced Raman Scattering
• Single Molecule Detection by SES
• Surface Enhanced Terahertz Spectroscopy
• Surfaceenhanced Fluorescence and Luminescence
• Surface Enhanced Infrared Absorption
• Tip Enhanced Raman Scattering and Related Spectroscopy and Microscopy
• Surface Enhanced Resonance Raman Scattering
• Surface Enhanced Spectroscopy on Semiconductors and Dielectrics
• Plasmon Mechanisms of Surface Enhanced Spectroscopy
• Surface Enhanced Hyper Raman Scattering
• Surface Enhanced and Tip enhanced Spectroscopy of Carbon Materials (graphene, nanotubes, fullerenes and others)

Optical Metrology

• Inspection, characterization and imaging of biomaterials and tissues
• Software-systems for optical metrology and inspection
• Optical metrology in industrial design and production engineering
• Optical instrumentation and systems
• High-resolution metrology

Optical Components and Modules

Laser Science

• Laser Nanotechnology
• Quantum Cryptography and Quantum Science
• Nuclear and Nano Sciences
• Nonlinear Lasers and Nonlinear Optics
• Nano-Optics, Bio-Optics and Plasmonics
• Condensed Matter Physics