Theme: Representative the fame of Lasers, Optics and Photonics in current world
Conference Series LLC Ltd invites all the participants from all over the world to attend 17th International Conference and Expo on Optics, Lasers& Photonics during October 19-20,2020 Paris, Frances.
Optics2020 conference theme is “Representative the fame of Lasers, Optics and Photonics in current world” which aims to provide a platform for optics researchers, scientists, industrialists, policy makers, and academicians to exchange and share their experiences and research results about all aspects of lasers, optics and photonics.
1. Eminent Scientists/Research Professors in the field of lasers, Optics & photonics
2. Junior/Senior research fellows in Lasers, Optics & photonics, Students
3...Directors of Photonics companies
4. Photonics Engineers
5. Members of different Lasers, Optics and Photonics associations.
Sessions & Tracks
Track1: Optical Physics
Optical physics is a study of atomics and molecules. It is the study of electromagnetic radiation, the inter communication and the belongings of that radiation, with matter, especially its operation and control. It differs from general optics and optical engineering, however among optical physics, applied optics, and optical engineering, the applications of applied optics and the strategies of optical engineering are needed for basic research in optical physics, and that research takes to the progress of new devices and applications. Major study in optical physics is also intense to quantum optics and consistency. In optical physics, analysis is additionally around in areas like ultra-short electromagnetic fields, the nonlinear reaction of isolated atoms to strong, quantum properties of the electromagnetic field, and the atom-cavity interaction at high fields.
- Quantum information and control
- Theoretical solid-state optics
- Ultrafast lasers
- Quantum Nano-optics
- Optical geometrics
- Quantum gases
Track 2: Advancements in Photonics
The name photonics progressive as a result of the primary realistic semiconductor light emitters considered in the in the beginning 1960s and optical fibers industrial in the 1970s. It is conveys to the developing science of quantum indication. Photonics science involves the emission, creation, modulation, diffusion; signal processing, amplification, switching, and detection/sensing of light. However cover all light technical applications over the entire spectrum, maximum photonic applications are in the range of near-infrared light and visible. any developing fields embody opt-atomics, in which it integrates along photonic and atomic devices for applications like exactness timekeeping, metrology, steering and Polari tonics, which vary from photonics in that the important information importer is a polarizing, which is a combination of phonons and photons, and operates in the range of frequencies from 300 gigahertz to almost 10 terahertz.
- Photonics materials and devices
- Photonics crystals and photonic crystal fiber
- Power photonics and green photonics
- Display technology
- Photodectors/ sensors and imaging
Track 3: Laser Systems
Laser stands for light intensification by stimulated emission of radiation. We all know that light is an electromagnetic wave. Each wave has its own glare and color, and vibrates at a convinced angle, called polarization. This concept also applies to laser light but it is more similar than any other light source. Every part of the beam consumes almost exact same direction and so the beam will deviate very little. With a good laser an object at a distance of 1 km can be irradiated with a dot about 60 mm in radius. As it is so similar, it can be focused to very small diameters where absorption of light energy becomes so high that you can drill, cut, or turn with the ray. It is also conceivable to illuminate and inspect very tiny details with the lasers, thus it is utilized in surgical applications and CD players as also. It can also be made very monochromic, thus only one light wavelength is present. This is not the instance with the normal light sources. White light consumes all colors in the spectrum, but even a colored light, such as a red LED has a repeated interval of red wavelengths.
- Fiber lasers and applications
- Plasma technologies
- Waveguide lasers
- Semiconductor/diode lasers and LEDs
- Type-II quantum-well and super lattice lasers
- High Intensity lasers
- Gas lasers, chemical lasers and exciter lasers
- Quantum information and measurement
- Ultrafast chemical dynamics
- MID-IR, quantum cascade and THZ lasers
Track 4: Optical Fiber
An optical fiber is a flexible as well as transparent fiber ready by silica glass or plastic to a diameter a little thicker than that of a human hair. Optical fibers are used typically to transmit light between the two ends of the fiber and widely used in fiber-optic communications; different cable wires optical fiber permits transmission over lengthier distances and at higher bandwidths than wire cables. In its place of metal wires fibers are used because signals portable along them with lesser quantities of damage; in addition to these fibers are also harmless to electromagnetic interference, a problem to which metal wires suffer excessively. Specially designed fibers are also used for a different other applications, some of them being fiber lasers and fiber optic sensors.
- Advanced optical fibers
- Advanced optical sensors
- Optical products and market analysis
Track 5: Applications and Trends in Optics and Photonics
Applications of photonics square measure easy. They embody in our standard of living to the foremost advanced science, e.g. science, lightweight detection, spectrum analysis, telecommunications, lighting, science, lighting, metrology, optical device material process, spectrum analysis, medicine, military technology, bio photonics, agriculture, robotics, and visual art.
- Integrated photonics
- Optical imaging
- Diffractive optics
- Adaptive optics
- Optics in astronomy and astrophysics
- Computational optical sensing and imaging
- Applied optics
- Optical fabrication
- Optical instrumentation
Track 6: Fiber Laser Technology
Fiber optical masers are primarily totally different from alternative optical maser types; during a fiber laser the active medium that crops the shaft of light is basically isolated inside the fiber optic itself. This discriminates them from fiber-delivered optical masers wherever the beam is slightly transported from the laser resonator to the beam delivery optics. Fiber optical masers are currently ordinarily better-known owing to its most focusable or most brightness of any laser sort. The primarily climbable theory of fiber lasers used has been to measure multimode fiber lasers up to the productivity power larger than fifty kilowatt and single mode fiber lasers ready to perform of 10kW in power. Optical imaging is AN imaging methodology that often defines the behavior of visible, ultraviolet, and infrared employed in imaging. Since lightweight is A radiation, comparable portents occur in X-rays, microwaves, radio waves.
- Quantum Nano science
- Quantum mechanics
- Nonlinear quantum systems and quantum-optical technologies
- Quantum interferometry and quantum metrology
- Quantum simulation
- Quantum enabled sensors
- Quantum cryptography
Track 7: Quantum Science and Technology
A quantum sensor is the device that exploits quantum relationships such as quantum entanglement to achieve sensitivity or the resolution that is enhanced than can reach using only classical systems. A quantum sensor can measure effect of quantum state of alternative system by itself. The simple action of measurement influences quantum state and deferent probability and the uncertainty connected with its state during dimension. Quantum device is the word used in other settings everyplace tangled quantum systems are browbeaten to compose better more sensitive magnetometers or atomic clocks. Quantum Photonics is to discover the basic features of quantum mechanics and also the work towards future photonic quantum technologies by manipulating, generating and measuring single photons as well as the quantum systems that emit photons. The market for quantum dots erected products such as new television screens is expected to extent $3.5 billion by 2020. The majority of this growth will come from increased demand in the US.
- Quantum mechanics
- Quantum simulation
- Quantum cryptography
- Quantum Nano science
- Nonlinear quantum systems and quantum-optical technologies
- Quantum enabled sensors
- Quantum interferometry and quantum metrology
Track 8: Photonics
Photonics is that the physical study of sunlight (photon) age, position, and management through emanation, transmission, adjustment, flag handling, exchanging, intensification, and identification. the' covering all light's specific applications over the whole vary, most photonic applications unit of measurement inside the scope of clear and shut actinic radiation. The term photonics made as Associate in nursing extension of the foremost pragmatic semiconductor light-weight producers intended inside the mid1960s and optical filaments made inside the Seventies
Track 9: Optoelectronics
Optoelectronics is the field of technology that combines the physics of light with electricity. It incorporates the design, study and manufacture of hardware tools that convert photon signals into electrical signals and electrical signals to photon signals. Any tool that performs as an electrical-to-optical or optical-to-electrical is considered an optoelectronic device. Optoelectronics is built up on the quantum mechanical belongings of light on electronic instrument, from time to time in the attendance of electric fields, primarily semiconductors. Optoelectronic technologies involve of laser organisms, remote sensing systems fiber optic communications, optical info systems, and electric eyes medicinal diagnostic methods.
- Optoelectronic devices and materials
- Semiconductor materials and applications
- Optoelectronics business opportunities
- Optical fiber sensors/detectors
- Optoelectronic integrated circuits
- Optoelectronic Instrumentation, measurement and metrology
- Semiconductor nanostructures for electronics and optoelectronics
- MEMS and NEMS
Track 10: Nano photonics and Bio photonics
Nano photonics is the analysis of the behaviors of light on the Nano meter scale, and of the correlation of Nano meter-scale objects with light. It is a department of optics, nanotechnology and electrical engineering. It repeatedly includes metallic units, which can transfer and focus light by means of surface Plasmon polarities. Bio photonics can also be defining as the advance and functions of optical methods mainly imaging, to analysis of biological molecules, tissue and cells. One of the major advantages of using optical techniques which constitution bio photonics is that they supply the dependability of the biological cells being studied, i.e. scattering material, on a microscopic or macroscopic scale.
- Bio sensing and bio photonics
- Nanofabrication and grapheme technology
- Spectroscopy of nanostructures
- Nano devices and Nano photonics
- Photo detectors/solar cells
- Met materials
- Applications of nanotechnology in optics
Track 11: Optics and Lasers in Medicine
There are some surgical operations that are perplexing to do with the conventional blade. Initial trials with laser beam displayed that a finely focused beam from a carbon dioxide gas laser possibly will cut through human tissue naturally and neatly. The doctor could direct the beam from any angle by using a mirror attached on a movable metal arm. Therefore, now a day’s laser beam is the most desirable instrument which is used as a standby for the conventional blade to do problematic surgeries. Lasers were considered as best effective in operating on parts that are easy to reach-areas on the body's external, including the ears, skin, mouth, eyes and nose. But in recent years doctors have recognized the remarkable progress in emerging laser techniques internal for use in exploration and surgery.
- Lasers in dentistry
- Tissue optics
- Biomedical optics
- Lasers in ophthalmology
- Clinical technologies and systems
- Lasers in cancer diagnosis and detection
- Lasers in tissue engineering: Laser tissue interaction
- Optical coherence tomography
- Opt acoustic imaging of biological tissues
- Artificial vision and color
- Laser microscopies
- Biomedical spectroscopy
Track 12: Technologies in Lasers, Optics and Photonics
Lasers produce high-intensity light beams. In laser and optical technologies, professionals these channel beams for usage in scientific devices, engineering, biomedical study, exchanging information and medication. Additionally, laser and optical methods can advance the fields of pharmacological, science and engineering through the improvement and application of new methods.
- Lasers and semiconductors
- Optical coatings
- Fiber optics components, equipment and systems
- Optical manipulation techniques, spectroscopies, and scattering techniques
- Metrology instrumentation
- Optical materials and substrates
- Column laser technology
- Optics for astronomy
- Precision fabrication
- Microscopes and telescopes
Track 13: Industrial Applications of Laser
Mechanical optical laser System may be a wellspring of imperativeness given further normal properties. These extraordinary properties are purpose by purpose within the earlier zone on "Properties of Laser". On account of its novel nature, lasers have found applications certain all intents and functions in every field of human activities, paying very little relevance whether or not it's science, sedate, industry, business, beguilement or IP, to point a handful. During this section, Industrial optical maser System has been mentioned chop-chop. Today, Industrial optical maser System is seemingly the foremost versatile instrument out there for varied material preparing applications like attachment, exhausting, cutting, heat treatment (hardening, reinforcing, covering, protective cover et cetera.) and sure particularly exceptional applications like slack of heavenly body items, optical maser dynamical, disengaged refinement and decommissioning of elements of untapped nuclear foundations, optical maser evacuation, oil and gas examination, car trade et cetera.
- Heat treatment
- Laser scanner
Track 14: Silicon Photonics and Organic Photonics
• Silicon photonics is the study and application of photonic systems which use silicon as an optical medium. The silicon is usually patterned with sub-micrometre precision, into microphotonic components. These operate in the infrared, most commonly at the 1.55 micrometre wavelength used by most fiber optic telecommunication systems Fields within organic photonics include the liquid organic dye laser and solid-state organic dye lasers. Materials used in solid-state dye lasers include.
• Advantages: Its great advantage is that it can be manufactured just like normal computer chips but with patterned silicon to transmit data-carrying laser signals. Able to carry more data while consuming less power and without heating up or causing any degradation in signal, silicon photonics will disrupt
Track 17: Optical Metrology
Optical scientific discipline mechanization is victimization lightweight to line the standards that outline units of measuring and for different high exactness analysis. Optical sensors are being incorporated in to stationary and moveable coordinate measure devices, thereby facultative measuring and examination operations to travel on the far side estimation of simply size and placement, and canopy kind and match additionally. Optical digitizers and scanners are being custom-made as exactness optical measuring instrumentation. Small and nanostructures are gaining wide promotional material and are being developed for varied industries.
- High-resolution metrology
- Optical instrumentation and systems
- O3A: Optics for Arts, Architecture, and Archaeology
- Inspection, characterization and imaging of biomaterials and tissues
- Optical metrology in industrial design and production engineering
- Software-systems for optical metrology and inspection
- Video metrics, range imaging and applications
- Autonomic navigation
- Multi-modal imaging and inspection technologies
- Material recognition and verification
- Defect recognition and verification
- I Modeling aspects in optical metrology
- image processing, Image fusion and Image modeling
Track 15: Modern Optics
Present day optics incorporate the lands of optical science and coming up with that stimulated simply known within the twentieth century. These territories of optical science often determine with the magnetism or quantum properties of light-weight nevertheless do incorporate totally different points. a stimulating subfield of current optics, quantum optics, manages significantly quantum mechanical properties of sunshine. Quantum optics is not merely hypothetical; some newest gadgets, for instance, lasers, have standards of operation that rely on quantum physics. Light-weight radars, for example, photomultipliers and channel loads, respond to unique photons. Electronic image sensors, for instance, CCDs, show shot commotion concerning the measurements of individual gauge boson occasions. Light-radiating diodes and electrical phenomenon, as well, cannot be apprehended while not quantum physics. Within the investigation of those gadgets, quantum optics often covers with quantum hardware.
1. Crystal Optics
2. Singular Optics
3. Non-Imaging Optics
4. Non-Linear Optics
Track 16: Optical Engineering:
Optical coming up with is that the field of concentrate that spotlights on utilizations of optics. Optical specialists set up elements of optical instruments, as an example, focal points, magnifying lens, telescopes, and different hardware that use the properties of sunshine. Totally different gadgets incorporate optical sensors and estimation frameworks, lasers, fiber optic correspondence frameworks, optical plate frameworks (e.g. Album, DVD), and then forth.
Since optical specialists got to define and construct gadgets that influence light-weight to accomplish one thing valuable, they ought to comprehend and apply the exploration of optics in considerable detail, with a particular finish goal to comprehend what's physically conceivable to accomplish (material science and science). Still, they likewise ought to understand what's reasonable as so much as accessible innovation, materials, costs, set up techniques, and then forth. Likewise with totally different fields of building, PCs square measure important to various (maybe most) optical specialists .they’re used with instruments, for reenactment, in plan, and for a few totally different applications. Architects often utilize general computer apparatuses, as an example, spreadsheets and programming dialects, and that they build visit utilization of explicit optical programming planned notably for his or her field.
Optical coming up with science utilizes optical techniques to quantify miniaturized scale vibrations with instruments just like the optical device spot measuring device or to measure the properties of the various plenty with instruments measurement refraction.
There are almost 96 different photonics research laboratories and almost 1500 photonics companies in UK and all are emerging rapidly. The recent survey which was conducted by an agency of UK known as Photonics and Plastic Electronics Knowledge Transfer Network (PPEKTN), found that the total turnover of UK’s Photonics Industry is at least 8.8 billion dollars and employees more than 51,000 people. Strengthening the Industrial Activities in UK is one of the solid agendas of the government officials. They have introduced a board (Technology Strategy Board) whose main intension is to increase the productivity of such industries which offers greatest growth for boosting UK’s Economy. A key area was identified by the board which was a global market for consumer electronics and photonics products, which was valued at 291 billion dollars.
The report is a compilation of the existing BCC reports in laser market. The topics analysed within the report include a detailed breakdown and analysis of the global markets for lasers. The scope of this report extends to sizing of the laser market and an analysis of global market trends with market data for various types of devices at global level in 2018, which is being considered as the base year, 2019 as the estimate year and forecast for 2024 with projection of CAGR from 2019 to 2024.
The report focuses on assessment of laser devices, suppliers and an analysis of companies/ manufacturers and the related system providers. Market dynamics such as drivers, restraints, opportunities and challenges are also discussed in the report.
While this report contains a significant amount of technical information due to the inherent nature of the subject and thus provides information valuable to engineers and scientists, it is primarily aimed at business professionals in field of lasers. These may include manufacturers and their suppliers, financiers and investors, researchers with backgrounds in engineering and sciences, marketing and sales professionals, and others. This report may also prove valuable to professional analysts, investors, public policy advisors and others who are seeking a better understanding and definition of lasers market.
Global Fiber Optics
The global fiber optics market size was valued at USD 6.5 billion in 2018 and is projected to exhibit a CAGR of 4.6% from 2019 to 2025. The technology is one of the modern-day innovations, which has evolved with time, owing to rigorous studies carried out by researchers and scientists across the globe through extensive research and development. The technology has proved to be a boon across a wide range of applications and has increased the number of advancements over the time.
- Optical Physics
- Laser Systems
- Advancements in Photonics
- Applications and Trends in Optics and Photonics
- Optical Fiber
- Nano photonics and Bio photonics
- Optics and Lasers in Medicine
- Technologies in Lasers, Optics and Photonics
- Industrial Applications of Laser
- Silicon Photonics and Organic Photonics
- Optical Metrology
- Modern Optics
- Optical Engineering
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