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SCIENTIFIC SESSIONS

  • Optical physics, engineering & imaging
  • Applications & trends in laser, optics & photonics
  • Implementations of laser, optics & photonics
  • Laser, optical & photonics science
  • Optical communication & networking
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IMPORTANT DATES

Abstract Submission
April 25, 2019

Early Bird Registration
May 06, 2019

Register Now

About Conference


It is with an immense pleasure and a great honor, we would like to welcome you all to the 2nd Global Congress & Expo on Advancements of Laser, Optics & Photonics to be held during July 27-29, 2020 at Paris in France. 

The conference is hosted by Linkin Science. These conferences are well crafted and designed by a team of skilled experts. Our conferences are vast expanded into Medical, life sciences, health care, Engineering and other social sciences. Each conference, summit or executive briefing is tailored to the sector, topic and audience need. Our event structure varies depending on issue and market requirements featuring Keynote presentations, Oral talks, Poster presentations, Young research forum, Exhibitions, roundtables and variable formats. Our mission is to bring the researchers on a common platform and provide opportunity for them to interact. This scientific networking helps for the betterment of science by exchanging the ideas in a broader way. Magnifying Scientific Knowledge by Sharing the research and ideas. We believe in accelerating the possibilities of novel discoveries and enhancement in scientific research, by connecting scientific community for knowledge sharing. Join us to redefine and explore new research, to provide a credible source to barter ideas for scientific studies besides transforming the true outcomes of a distinct scientific discovery and grab the attention for rare emerging technologies.

Importance and Scope:

Laser, Optics & Photonics are rapidly expanding by playing a prominent role in many fields. This Conference is a platform to Industry, Academia, Researchers, Innovators to come together to discuss the research activities, advancements, ideas and exhibit laser, optics & photonics products.

Laser, optics & photonics is rapidly gaining traction across a range of industries, from agriculture to water treatment to energy storage. Today, laser, optics & photonics is one of the most innovative, cutting-edge areas of scientific study and it continues to advance at staggering rates. Laser, optics & photonics have made some of the greatest advancements in pediatric optometry & skin laser resurfacing. Scientists in the laser, optics & photonics fields are focused on determining how future drifts in laser, optics & photonics. While laser, optics & photonics are their recent application & trends in it, the benefits are clear with it. Scientists and engineers are focused on applying laser, optics & photonics to resolve these issues. Laser, optics & photonics have been hailed as the next big thing for decades, but it is only now that it is truly becoming a reality in the medical device space.

Benefits of attending the conference:

Advancements of Laser, Optics & Photonics 2020 offers a wonderful opportunity to meet and enhance new contacts in the field of Laser, Optics & Photonics, by providing mutual collaboration and break-out rooms with tea, Coffee, snacks and lunch for delegates between sessions with invaluable networking time for you. It allows delegates to have issues addressed on Laser, Optics & Photonics global experts who are up to date with the latest developments in this particular field and provide information on new advancements and other technologies. This International conference features world renowned keynote speakers, plenary speeches, young research forum, poster presentations, technical workshops and career guidance sessions.

Target Audience:

  • Laser, Optics & Photonics Students, Scientists
  • Laser, Optics & Photonics Researchers
  • Laser, Optics & Photonics Associations and Societies
  • Business Entrepreneurs
  • Laser, optics & photonics professors
  • Physicists/Chemists
  • Junior/Senior research fellows of Quantum optics/ optomechanics/ nanotechnology/ optical fiber/ astronomy/ astrophysics
  • Cosmetic Surgeon
  • Directors of laser, optics & photonics companies
  • Laser, optics & photonics engineers
  • Members of laser, optics & photonics associations.
  • Opthalmologist
  • Brand manufacturers/ Marketers of consumer product
  • Marketing, advertising & promotion agency executive

Scientific Sessions


Optical Physics, Engineering & Imaging

Optical physics is a study of atomics and molecules. It is the study of electromagnetic radiation, the interaction and the properties of that radiation, with matter, especially its manipulation 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 devices of optical engineering are necessary for basic research in optical physics, and that research takes to the development of new devices and applications. Major study in optical physics is also keen to quantum optics and coherence. In optical physics, research is also stimulated in areas such as ultra-short electromagnetic fields, the nonlinear response of isolated atoms to intense, quantum properties of the electromagnetic field, and the atom-cavity interaction at high fields. Photosensitive imaging is a system to find in a non-assaulting way inside the body, equivalent what is finished with x-beam shafts.

 

Applications & Trends in Laser, Optics & Photonic

Applications of laser, optics & photonics are abundant. They include in our everyday life to the most advanced science, e.g. information processing, medicine, military technology, bio photonics, agriculture, robotics, and visual art. Spectroscopy, Heat treatment, Lunar laser ranging, Photochemistry, Laser scanner, Nuclear fusion, Microscopy are the applications of lasers. Modelling and design of optical systems using physical optics, Superposition and interference, Diffraction and optical resolution, Dispersion and scattering, Reflections and Refraction are the application for optics. Application for photonics are in the field of telecommunications, photonic computing, medicine, aviation, construction, military, metrology, etc. Trends in laser, optics & photonics include VCSEL Technology, custom leather gifts, LIDAR & Proximity sensors, UV Printing, Enhanced cinema display in theatres, Emergence of dermatology, Integrated optics, Microoptics, Halographic optical elements, Optical memories, Photonic crystal, silicon bases optoelectrons.

 

Implementations of Laser, Optics & Photonics

There are many applications for laser, optics and photonics other than medicine. The other fields where the laser, optics and photonics are used are industries, defense, and scientific researchers. The development in this sector leads to the betterment of human life. This also affects the economic growth of the country. Some of the applications are ultrafast laser pumping, biophotonics research, annealing, LED laser lift-off, chemical detection and LIDAR.

 

Laser, Optical & Photonics Science

The acronym of LASER is Light Amplification by Stimulated Emission of Radiation. According to physics light is an electromagnetic wave which has its own brightness and color. It vibrates at a certain angle, called polarization. The lasers can be used to focus very small diameters where the concentration of light energy becomes so great that you can cut, drill or turn with the beam. The lasers can illuminate and examine very tiny details with lasers, thus it is used in surgical appliances and CD players as well. Lasers are monochromatic, so it has only one light wavelength. It is a study that deals with generation of electromagnetic radiation, properties of that radiation. It is also deals with the interaction of that radiation with the matter. The researchers develop the light source that span the electromagnetic radiation from microwaves to X-rays. This includes the generation and detection of light and linear and nonlinear process. Some of the applications are low coherence interferometry, spectroscopy, and Laser spectroscopy. The application optical science creates advancements in medicine, manufacturing, communication and entertainment.

 

Optical Communication & Networking

Optical communications networks are enhancing a vital role such as there is high demand for capacity links. DWDM which means dense wavelength division multiplexing is widely deployed at the core networks to deliver high capacity transport systems. Optical components such as, tunable filters, termination devices, optical amplifiers transceivers, and add-drop multiplexers are becoming more trustworthy and affordable. Access network and metropolitan area networks are increasingly built with optical technologies to overcome the electronic blockage at network edges. Subsystems and new components for very high speed optical networks offer a new design options. Free-space optical communication has been arranged in space, while terrestrial forms are naturally limited by weather, geography and the availability of light.

 

Advancements in Laser, Optics & Photonics

Photonic applications are in the range of near-infrared light and visible. Other emergent fields include opto-atomics, in which it integrates both photonic and atomic devices for applications such as precision timekeeping, metrology, navigation and Polari tonics, which vary from photonics in that the fundamental information carrier is a polarizing, which is a mixture of phonons and photons, and operates in the range of frequencies from 300 gigahertz to almost 10 terahertz. Lasers are a technology commonly used in our everyday lives. Lasers are in the optical drives in computers, in barcode readers in the grocery store, in aesthetic and dental treatments, in surgical procedures, manufacturing and more. While the science of light itself has not changed, laser technology has advanced rapidly and today we have a myriad of laser types that wouldn’t have been thought possible 60 years ago. Some of the latest advances include the all-silicon laser, a holmium doped laser on a silicon photonics platform and a flying micro laser.

 

Quantum Science & Technology

A quantum sensor is a gadget that adventures quantum relationships, for example, quantum entrapment to accomplish affectability or the determination that is superior to can achieve utilizing just traditional frameworks. A quantum sensor can quantify the impact of the quantum condition of elective framework independent from anyone else. Quantum sensor is the term utilized as a part of different settings wherever caught quantum frameworks are intimidated to improve more touchy magnetometers or nuclear timekeepers. Quantum Photonics is to investigate the crucial highlights of quantum mechanics and furthermore the work towards future photonic quantum innovations by controlling, producing and estimating single photons and in addition the quantum frameworks that emanate photons. Quantum detectors include Photoelectric or Photovoltaic, Photodiodes, Phototransistors, Photomultipliers.

 

Future Drifts in Laser, Optics & Photonics

The laser has driven both scientific and technological innovation in every facet of modern life. The laser shows the sign of continuing its unique and creative role. The role of the laser is expanding. The main reason why the laser is so special because it allows us to harness light in unique way. Finding new uses for laser technology will provide the most dramatic breakthroughs. Some of the development will be far-reaching medical diagnosis, dramatically more efficient computers and communications, laser boost energy application and security and protection.

 

Quantum Optics & Optomechanics

Significant investigation in optics material science is additionally quick to quantum optics and rationality. In optics material science, look into is additionally animated in territories, for example, ultra-short electromagnetic fields, the nonlinear reaction of disengaged iotas to an extreme, quantum properties of the electromagnetic field, and the molecule pit connection at high fields. Optomechanics refer to the sub-field of physics involving the study of the interaction of electromagnetic radiation (photons) with mechanical systems via radiation pressure (also see cavity optomechanics) or the manufacture and maintenance of optical parts and devices.

 

Optics in Astronomy & Astrophysics

Optics passage and genuine infiltration can vary completely depending upon the absorptivity of the astrophysical atmosphere. Optics infiltration is a measure of the obliteration coefficient or absorptivity up to positive 'significance' of a star's beautifiers. The doubt here is that either the ending coefficient or the area number thickness is known. These can generally be figured from various conditions if a significant part of the information is pondered the substance makeup of the star. Optics profundity can henceforth be thought of as the imperiousness of a medium. The end coefficient can be discovered using the trade condition.

 

Biophotonics

Bio photonics can also be described as the advance and examined, i.e. scattering material, on a microscopic or macroscopic scale application of optical techniques particularly imaging, to study of biological molecules, tissue and cells. One of the main benefits of using optical techniques which make up bio photonics is that they reserve the reliability of the biological cells being.

 

Optoelectronics

 Optoelectronics is the field of technology that associates the physics of light with electricity. It incorporates the design, study and manufacture of hardware devices that convert electrical signals into photon signals and photons signals to electrical signals. Any device that operates as an electrical-to-optical or optical-to-electrical is considered an optoelectronic device. Optoelectronics is built up on the quantum mechanical effects of light on electronic materials, sometimes in the presence of electric fields, especially semiconductors. Optoelectronic technologies comprise of laser systems, remote sensing systems, fibre optic communications, optical information systems, and electric eyes medical diagnostic systems.

 

Laser Nanotechnology

Nanoparticles and nanomaterial have different fundamental properties. The applications of laser radiation in the nanotechnology are ranging from fabrication, melting and evaporating. This process is done to change the shape, structure, size and size distribution. The progress in the field of nanotechnology is greatly relied on the uses of lasers. The combination of laser and nanotechnology in the field of cancer treatment has made a good progress over the year. There are many application of laser in the nanotechnology which will be discussed in detail in this section.

 

Pediatric Optometry

The clinical practice of optometry for the pediatric patients is done to reduce the risk of vision loss and facilitate normal visual development. This pediatric population can be applied to patients between birth and 18 years of age.

 

Laser Skin Resurfacing

Laser technique directs short, concentrated pulsating beams of light at irregular skin, precisely removing skin layer by layer. This popular procedure is also called lasabrasion, laser peel, or laser vaporization. The two types of lasers most commonly used in laser resurfacing are carbon dioxide (CO2) and erbium. Each laser vaporizes skin cells damaged at the surface-level. This method has been used for years to treat different skin issues, including wrinkles, scars, warts, enlarged oil glands on the nose, and other conditions. The newest version of CO2 laser resurfacing (fractionated CO2) uses very short pulsed light energy (known as ultra-pulse) or continuous light beams that are delivered in a scanning pattern to remove thin layers of skin with minimal heat damage. One of the benefits of erbium laser resurfacing is minimal burning of surrounding tissue. This laser causes fewer side effects. such as swelling, bruising, and redness. So your recovery time should be faster than with CO2 laser resurfacing.

 

Nano Optics & Photonics

Nano photonics is the study of the behavior of light on the nano meter scale, and of the interaction of nano meter-scale objects with light. It is a branch of optics, electrical engineering, and nanotechnology. It often involves metallic components, which can transport and focus light by means of surface plasmon polaritons. Photonics is the physical science of light (photon) generation, detection, and manipulation through emission, transmission, modulation, signal processing, switching, amplification, and detection/sensing. Though covering all light's technical applications over the whole spectrum, most photonic applications are in the range of visible and near-infrared light.

 

Fiber Laser Technology

Fiber lasers are basically different from other laser types; in a fiber laser the active medium that produces the laser beam is actually isolated within the fiber optic itself. This discriminates them from fiber-delivered lasers where the beam is merely transported from the laser resonator to the beam delivery optics. Fiber lasers are now widely known because of its most focusable or highest brightness of any laser type. The essentially scalable concept of fiber lasers has been used to scale multimode fiber lasers up to the output power greater than 50 kW and single mode fiber lasers capable of 10kW in power. Optical imaging is an imaging technique that usually describes the behavior of visible, ultraviolet, and infrared light used in imaging. Since light is an electromagnetic wave, similar portents occur in X-rays, microwaves, radio waves. Fiber laser technology include Double-clad fibre, Power scaling, Mode locking, Drack solution fibre laser, Multiwavelength fibre laser.

 

Optics & Laser in Medicine

Trials with laser beam showed that a finely focused beam from a carbon dioxide gas laser could cut through human tissue effortlessly and neatly. The surgeon could direct the beam from any angle by using a mirror attached on a movable metal arm. Lasers were considered as most effective in operating on parts that are easy to reach-areas on the body's exterior, including the ears, skin, mouth, eyes and nose. But in recent years doctors have established the remarkable progress in emerging laser techniques for use in internal exploration and surgery. For illustration lasers are gradually used to clean plaque from people's arteries.

 

Surface Enhanced Spectroscopy

Surface-enhanced Raman scattering (SERS) or Surface-enhanced Raman spectroscopy is a surface sensitive technique which enhances Raman scattering by the molecules adsorbed on the rough metal surfaces or by the nanostructures such as plasmonic magnetic silica nanotubes and the enhancement factor can be as much as 1010 to 1011, which means the technique may detect single molecules. The electromagnetic theory recommends the excitation of localized surface Plasmon’s, and then the chemical theory recommends the formation of charge transfer complexes. Electromagnetic theory can put on even in those cases where the specimen is physically absorbed only to the surface. It has been shown lately that SERS enhancement can occur even when excited molecule is relatively far apart from the surface which swarms metallic nanoparticles enabling surface Plasmon phenomenon.

 

Laser & Nonlinear Optics

Nonlinear optics (NLO) is the branch of optics that describes the behavior    of light in nonlinear media, that is, media in which the dielectric polarization P responds nonlinearly to the electric field E of the light. The nonlinearity is typically observed only at very high light intensities (values of atomic electric fields, typically 108 V/m) such as those provided by lasers. Above the Schwinger limit, the vacuum itself is expected to become nonlinear. In nonlinear optics, the superposition principle no longer holds.

Market Analysis


A laser differs from other sources of light in that it emits light coherently, spatially and temporally. Spatial coherence allows a laser to be focused to a tight spot, enabling applications such as laser cutting and lithography. Spatial coherence also allows a laser beam to stay narrow over great distances, enabling applications such as laser pointers.

Photonics is the physical science of light (photon) generation, detection, and manipulation through emission, transmission, modulation, signal processing, switching, amplification, and detection/sensing. Photonics is closely related to optics. Classical optics long preceded the discovery that light is quantized, when Albert Einstein famously explained the photoelectric effect in 1905. Optics tools include the refracting lens, the reflecting mirror, and various optical components and instruments developed throughout the 15th to 19th centuries.

Optics is the branch of physics which deals with the behaviour and properties of light, including its interactions with matter and the construction of instruments that use or detect it. Optics usually describes the behaviour of visible, ultraviolet, and infrared light. Because light is an electromagnetic wave, other forms of electromagnetic radiation such as X-rays, microwaves, and radio waves exhibit similar properties. Optical science is relevant to and studied in many related disciplines including astronomy, various engineering fields, photography, and medicine (particularly ophthalmology and optometry).

The first section of the Fiber Optics Market Research report highlights industry overview, upstream and downstream market segmentation, and the cost analysis. The second and third section gives a close idea of the industry environment, Fiber Optics market by type along with segment overview, market forecast, and market size. Next two sections list the top manufacturers and companies involved in the Fiber Optics market and competitive scenarios of these market players. The sixth section includes Fiber Optics market demand, demand situation, demand comparison according to geographical regions, and demand forecast. Seventh and eighth section highlights region operation, by region and regional forecast, product margin, price/cost of the product, value chain, and sales channel. The last section of the Fiber Optics Market report displays research findings and conclusion. Market Research Explore recently published that, Global Fiber Optics Market Research Report 2018 - 2025 presents an in-depth assessment of the Fiber Optics that has sanctionative technologies, key trends, market drivers, challenges, standardization, restrictive landscape, preparation models, operator case studies, opportunities, future roadmap, worth chain, system player profiles and strategies. The report conjointly presents forecasts for Fiber Optics investments from 2018 till 2022. Tech Navio forecasts The Global Fiber Optic Sensor Market 2014-2018 with a CAGR of 10.3 percent for the period 2013-2018. Several driving factors and trends will contribute to this growth—all of which will be outlined in detail in this report.

Global Photonics Sensor Market is expected to garner $18 billion by 2021, registering a CAGR of 17.7% during the forecast period 2016-2021. The photonic sensors market has gone through a drastic change based on the researchers that have been conducted in the photonic technology in the past. The photonic technology has advanced into a phase where it is being used in varied fields. The innovations in the field of fibre optics have spurred the development of photonic sensors. These developments have expanded the spectral range of sensors being used in several industries. Photonic sensors offer better sensing function and it is expected that this technology would give a high return on investment in the long run. The photonics industry is now focusing on the development of efficient products and it is projected that over the next few years eco-friendly and energy saving photonic sensors would be developed and launched into the market. Need for enhanced safety and security solutions, the better alternative for conventional technology and rise in wireless sensing technology are some of the major factors that act as drivers for the photonic sensor market. Similarly, lack of industrial and technological standards, high initial investments and lack of awareness can be considered as restraints for the market.

The global market for medical laser systems will reach an estimated value of $2 billion in 2018, according to Medical Laser Systems Market (CO2 Laser, Excimer Laser, Ho:Yag Laser, Nd:Yag Laser, Dye Laser, Solid State Laser and Gas Laser, Ophthalmology, Dermatology, Urology and Cardiovascular) – Global Industry Analysis, Size, Share, Growth, Trends and Forecast, 2012-2018, a new market report published by Transparency Market Research. The market’s value was $909 million in 2011 and is expected to grow at a compound annual growth rate (CAGR) of 12.5 percent from 2012 to 2018.

According to the new market research report "Silicon Photonics Market by Component (Optical Waveguides, Optical Modulators, Photo Detectors, WDM, Lasers), Product (Transceivers, Active Optical Cables, Multiplexers, and Attenuators), Application, and Geography-Global Forecast to 2022", this market is expected to be worth USD 1,078.9 Million by 2022, at a CAGR of 22.1% between 2016 and 2022. The major driver for the growth of the silicon photonics market is the increasing use of data communication applications. The silicon photonics market in APAC is expected to grow at the highest CAGR between 2016 and 2022. The reason for this growth is the adoption of new technologies, economic growth, and increasing use of cloud-based and networking services in the corporate world. The rapid increase in technological innovations and advanced communication systems are driving the demand for silicon photonics in China, Japan, India, and South Korea. Most of the developments in telecommunication and data communication applications are expected in this region. Therefore, the market in APAC is expected to grow rapidly during the forecast period. The key players in the ecosystem of the silicon photonics market profiled in this report are Cisco Systems, Inc. (U.S.), Intel Corporation (U.S.), IBM Corporation (U.S.), Mellanox Technologies, Ltd. (U.S., Israel), Hamamatsu Photonics K.K. (Japan), STMicroelectronics N.V. (Switzerland), Infinera Corporation (U.S.), Finisar Corporation (U.S.), Luxtera Inc. (U.S.), DAS Photonics (Spain), and Aurrion Inc. (U.S.)

Scientific Sessions

Abstract Submission : April 25, 2019

Early Bird Registration : May 06, 2019

  • Optical physics, engineering & imaging
  • Applications & trends in laser, optics & photonics
  • Implementations of laser, optics & photonics
  • Laser, optical & photonics science
  • Optical communication & networking
  • Advancements in laser, optics & photonics
  • Quantum science & technology
  • Future drifts in laser, optics & photonics
  • Quantum optics & optomechanics
  • Optics in astronomy & astrophysics
  • Biophotonics
  • Optoelectronics
  • Laser Nanotechnology
  • Pediatric optometry
  • Laser skin resurfacing
  • Nano photonics and optics
  • Fiber laser technology
  • Optics & laser in medicine
  • Surface enhanced spectroscopy
  • Laser & nonlinear optics
  • Terahertz Optics and Photonics

Registration Categories

Abstract Submission : April 25, 2019

Early Bird Registration : May 06, 2019

Awards

2nd GCEALOP (Global Congress & Expo on Advancements of Laser, Optics & Photonics) anticipates being able to provide funding to assist some attendees coming from Lower and Middle Income Countries to present their science at the summit.  Participants desiring to be considered for one of these awards need to specify their interest after their submission of the required abstract. Selected participants will receive a cash award of $250 to $1,000 (USD) scholarship Under the 3 categories

  1. Outstanding Submitted Abstract of the GCEALOP.
  2. Best Research of the conference as evaluated by the Scientific Committee
  3. Young Researcher Award under YRF category to encourage budding scientists/ researcher.

Decisions will be made based on evaluation of the submitted abstract by the Scientific Committee and amount of funds available. The decision made by the Scienctific Committe would be final. We want you to grab this opportunity and participate in the conference...!

Past Conference Report

We gratefully thank all our wonderful Speakers, Conference Attendees, Students, Media Partners, Associations for making Laser, optics and photonics 2019 Conference the best ever!

Laser optics and photonics 2019, hosted by the Linkin Science was held during March 25-27, 2019 at Tryp Valencia Oceanic Hotel in Valencia, Spain based on the theme “Insight into the applications and innovative technologies in Laser optics and photonics" which got magnificent response. With the support and guidance of Scientific Committee Members and amazing presentations of all participants along with Scientists, Researchers, Students and leaders from various fields of Lasers, optics and photonics has made this event a grand success. With this success, we would like to welcome you once again to our 2nd Global congress on Laser, optics and photonics to be held during July 27-29, 2020 at Paris in France.