Call for Abstract
Scientific Program
2nd International Conference on Optics and Photonics, will be organized around the theme “Uncovering the New Trends in Optics and Photonics”
OPTICSPHOTONICS-2021 is comprised of 20 tracks and 102 sessions designed to offer comprehensive sessions that address current issues in OPTICSPHOTONICS-2021.
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 1-1Optical interchanging systems
- Track 1-2Thick wavelength division multiplexing
- Track 1-3Optical intensifiers
- Track 1-4Cloud computing
- Track 1-5Wireless communications
- Track 2-1Light detection
- Track 2-2Metrology
- Track 2-3Green photonics
- Track 2-4Robotic technology
- Track 2-5Spectroscopy
- Track 3-1Optronics mast
- Track 3-2Periscope tubes
- Track 3-3Submarine
- Track 3-4Telescoping car
- Track 3-5High definition low light
- Track 4-1Photon emissions
- Track 4-2Quantum mechanics
- Track 4-3Laser systems
- Track 4-4Fiber optic communications
- Track 4-5Medical diagnosis
- Track 5-1Electrical signals
- Track 5-2Optical cavity
- Track 5-3Optical telecommunications
- Track 5-4Optical fiber cables
- Track 5-5Raman Scattering
- Track 5-6Parametric amplification
- Track 6-1Optical Links
- Track 6-2Mother board
- Track 6-3Personal Computers
- Track 6-4Transmission capacity
- Track 6-5Waveguide
- Track 7-1Telecommunications
- Track 7-2Optical fibers
- Track 7-3Data networking
- Track 7-4Loss in Transmission
- Track 7-5Broadband distribution
- Track 8-1Non-linearity
- Track 8-2Polarization density
- Track 8-3Electrical fields
- Track 8-4Lasers
- Track 8-5Schwinger limit
- Track 9-1High intensity beams
- Track 9-2Optical engineering
- Track 9-3Biomedical research
- Track 9-4Galvanometers
- Track 9-5Beam splitters
- Track 10-1Magnetic resonance imaging
- Track 10-2High intensity electromagnetic radiations
- Track 10-3Blood loss
- Track 10-4CT scan
- Track 10-5Eye problems
- Track 11-1Ruby lasers
- Track 11-2Chemical lasers
- Track 11-3Dye lasers
- Track 11-4Gas lasers
- Track 11-5Metal vapor laser
- Track 11-6Spectroscopy
- Track 12-1Quantum theory
- Track 12-2Quantum physics
- Track 12-3Secure communications
- Track 12-4Quantum simulation
- Track 12-5Machine learning
- Track 13-1Semiconductor light emitting diodes
- Track 13-2Polymer light emitting diodes
- Track 13-3Organic light emitting diodes
- Track 13-4Traffic lights
- Track 13-5Parking lights
- Track 14-1Terahertz radiations
- Track 14-2Electromagnetic radiations
- Track 14-3Frequency
- Track 14-4Wave length
- Track 14-5Infrared radiation
- Track 15-1Applicable optical systems
- Track 15-2Renewable energy
- Track 15-3Greenhouse gases
- Track 15-4Solar cells
- Track 15-5Photovoltaic devices
- Track 16-1Optiwave
- Track 16-2OptiBPM
- Track 16-3OptiFDTD
- Track 16-4FIMMWAVE
- Track 16-5VPIphotonics
- Track 17-1Optical tools
- Track 17-2Physical quantities
- Track 17-3Acceleration
- Track 17-4Intrinsic sensors
- Track 17-5Electromagnetic interference
- Track 18-1Optical lasers
- Track 18-2Photonic microcircuits
- Track 18-3Electrical integrated circuits
- Track 18-4Metrology
- Track 18-5Optical lasers
- Track 19-1Photons
- Track 19-2Carbon nano particles
- Track 19-3Tissue integrity
- Track 19-4Nano crystals
- Track 19-5Semiconductors
- Track 20-1Ultra-fast transient absorption
- Track 20-2Time-resolved photoelectron spectroscopy and two-photon photoelectron spectroscopy
- Track 20-3Multidimensional spectroscopy
- Track 20-4Ultrafast imaging
- Track 20-5Femtosecond up-conversion