Euro Optics 2018
In the area of Optics EuroSciCon Ltd takes immense delight & feels honored in inviting the participants across the globe to attend the Euro Optics 2018 conference which is held during July 16-17, 2018 Prague, Czech Republic. The main theme of our conference is " Demonstrating the fame of Lasers, Optics and Photonics in today’s world " with an objective to inspire young minds and their research abilities by providing an opportunity to meet the professionals in the field of Optics. Euro Optics 2018 is invented to explore various applications in Optics.
- Laser Safety
- Laser Systems
- Optical Communications And Networking
- Optics and Lasers in Medicine
- Optical Fiber
- Nanophotonics And Biophotonics
- Surface Enhanced Spectroscopy (SES)
- Fiber Laser Technology
- Physical Optics
- Modern Optics
- Atmospheric Optics
- Photonic Integrated Circuits
- Organic Photonics
- Organic Lasers
- Waveguide Optics
- Photonic Crystal Fiber
- Laser Science
- Laser Diode
- Optical Interferometers
- Laser Safety
- Optical MediumPhotonic Systems
- Classical Optics
- Optical Interferometers
- Optical Physics
The field of Lasers, Optics and Photonics have not only helped the development in different fields in science and technology but also contributed towards the improvement of the quality of human life to a great extent. All this has become possible with the different discoveries and inventions leading to the development of various applications. The core aim of Optics 2018 conference is to provide an opportunity for the delegates to meet, interact and exchange new ideas in the various fields of Lasers, Optics and Photonics
Euro Optics 2018 includes international attendee workshops, lectures and symposia, including a designated registration area, a refreshment break and gala lunch. Attendees can join the EuroSciCon as an international member to receive discounts on registration. So come and join leading experts and allied professionals from July 16-17, 2018 in Prague, Czech Republic to keep up with the rapidly accelerating pace of change that is already having an impact on the field of Optics and will continue to in the future.
Who can attend?
- Eminent Scientists/Research Professors in the field of lasers, Optics & photonics
- Junior/Senior research fellows in Lasers, Optics & photonics, Students
- Directors of Photonics companies
- Photonics Engineers
- Members of different Lasers, Optics and Photonics associations.
Why Prague, Czech Republic?
Prague is the capital and most astronomically immense city in the Czech Republic, the 14th most immensely colossal city in the European Amalgamation and additionally the historical capital of Bohemia. Situated in the north-west of the country on the Vltava river, the city is home to about 1.4 million people, while its more immensely colossal urban zone is estimated to have a population of 2.2 million.The city has a temperate climate, with warm summers and algid winters.
Prague has been a political, cultural and economic centre of central Europe consummate with genuinely opulent history. Founded during the Romanesque and flourishing by the Gothic, Renaissance and Baroque eras, Prague was the capital of the kingdom of Bohemia and the main residence of several Holy Roman Emperors, most eminently of Charles IV. It was a paramount city to the Habsburg Monarchy and its Austro-Hungarian Imperium.
Sessions & Tracks
Traditional optics is isolated into two principle branches: geometrical (or beam) optics and physical (or wave) optics. In geometrical optics, light is considered to go in straight lines, while in physical optics, light is considered as an electromagnetic wave.Geometrical optics can be seen as an estimate of physical optics that applies when the wavelength of the light utilized is substantially littler than the extent of the optical components in the framework being demonstrated.
In physical optics, light is considered to engender as a wave. This model predicts wonders, for example, obstruction and diffraction, which are not clarified by geometric optics. The speed of light waves in air is roughly 3.0×108 m/s (precisely 299,792,458 m/s in vacuum). The wavelength of obvious light waves differs in the vicinity of 400 and 700 nm, however the expression "light" is additionally regularly connected to infrared (0.7– 300 μm) and bright radiation (10– 400 nm).
Superposition and interference
Diffraction and optical resolution
Dispersion and scattering
Present day optics incorporate the territories of optical science and designing that wound up plainly famous in the twentieth century. These territories of optical science regularly identify with the electromagnetic or quantum properties of light yet do incorporate different points. A noteworthy subfield of present day optics, quantum optics, manages particularly quantum mechanical properties of light. Quantum optics isn't simply hypothetical; some cutting-edge gadgets, for example, lasers, have standards of operation that rely upon quantum mechanics. Light locators, for example, photomultipliers and channeltrons, react to singular photons. Electronic picture sensors, for example, CCDs, show shot commotion relating to the measurements of individual photon occasions. Light-radiating diodes and photovoltaic cells, as well, can't be comprehended without quantum mechanics. In the investigation of these gadgets, quantum optics regularly covers with quantum hardware.
Novaya Zemlya Effect
Photonic coordinated circuits (PICs) are optically dynamic incorporated semiconductor photonic gadgets which comprise of no less than two distinctive practical squares, (pick up locale and a grinding based mirror in a laser. These gadgets are in charge of business achievements of optical correspondences and the capacity to expand the accessible data transfer capacity without critical cost increments to the end client, through enhanced execution and cost lessening that they give. The most broadly sent PICs depend on Indium phosphide material framework. Silicon photonics is a dynamic zone of research.
LIDAR and other Phased Array Imaging
Photonics likewise incorporates explore on photonic frameworks. This term is frequently utilized for optical correspondence frameworks. This territory of research concentrates on the usage of photonic frameworks like rapid photonic systems. This likewise incorporates inquire about on optical regenerators, which enhance optical flag quality.
Natural photonics incorporates the age, discharge, transmission, adjustment, flag handling, exchanging, enhancement, and identification/detecting of light, utilizing natural optical materials. Natural inorganic nanoparticle pick up media are nanocomposites produced for strong state color lasers and can likewise be used in biosensors, bio examination and nonlinear natural photonics applications. An extra class of natural materials utilized as a part of the age of laser light incorporates natural semiconductors. Conjugated polymers are broadly utilized as optically-pumped natural semiconductors. Fields inside natural photonics incorporate the fluid natural color laser and strong state natural color lasers. Materials utilized as a part of strong state color lasers include:
Laser dye-doped PMMA
Laser dye-doped polymer-nanoparticle matrices
Natural lasers utilize a natural (carbon based) material as the increase medium. The primary natural laser was the fluid color laser. These lasers utilize laser color arrangements as their pick up media. Natural lasers are innately tunable and when designed as enhanced different crystal grinding laser oscillators can yield productive single-transverse mode, and single-longitudinal-mode, discharge with laser line widths as tight as 350 MHz (roughly 0.0004 nm at a wavelength of 590 nm), in the high-control beat administration.
Solid-state dye lasers
Distributed feedback laser
Dielectric slab waveguide
Photonic-precious stone fiber (PCF) is another class of optical fiber in light of the properties of photonic gems. In view of its capacity to keep light in empty centers or with constrainment attributes unrealistic in traditional optical fiber, PCF is presently discovering applications in fiber-optic correspondences, fiber lasers, nonlinear gadgets, high-control transmission, exceedingly touchy gas sensors, and different regions
An optical medium is fabric through which electromagnetic waves proliferate. It is a frame of transmission medium. The permittivity and porousness of the medium characterize how electromagnetic waves engender in it. The medium has an inherent impedance..
Types of optical mediums
The expression biophotonics proposes An mix of science Also photonics, with photonics constantly those science Furthermore advancement for period, control, What's more revelation about photons, quantum units for light. Photonics may be distinguished for rigging Also photons. Photons assume a central bit over information improvements, to example, fiber optics those best approach electrons do in supplies.
Laser science is mainly concerned with quantum gadgets, laser development, optical depression plan, the material science of creating a populace reversal in laser media, and the transient advancement of the light field in the laser. It is moreover concerned with the material science of laser bar proliferation, especially the material science of Gaussian bars, with laser applications, and with related fields such as nonlinear optics and quantum optics.
Laser diode, (LD), implantation laser diode (ILD), or diode laser is a semiconductor contraption tantamount to An light-emanating diode Previously, which the laser bar may be aggravated toward the diode's intersection. Laser diodes need aid those practically normal sort lasers created, for a totally augment about employments that fuse fiber optic communications, institutionalized tag perusers, laser pointers, CD/DVD/Blu-ray plate reading/recording, laser printing, laser checking and light bar brightening. laser checking and light bar brightening
- Double heterostructure lasers
- Quantum well lasers
- Quantum cascade lasers
- Interband cascade lasers
- Separate confinement heterostructure lasers
- Distributed Bragg Reflector lasers
- Distributed feedback lasers
- Vertical-cavity surface-emitting laser
- Aviation safety
- Maximum Permissible Exposure
- Infrared light
- Spatial Coherence
Optical interferometric are the disobedient that depend on impedances of two or more superimposed reflections of the input laser bar. These are one of the most common optical devices, that are utilized for accuracy estimations, surface diagnostics, astronomy, seismology, quantum data, etc. There are numerous arrangements of optical interferometric, and in this lab you will gotten to be commonplace with two likely most common sorts.
- Michelson interferometer
- Fabry-Perot interferometer
- Beam splitter
LASER stands for light amplification by stimulated emission of radiation. We all ken that light is an electromagnetic wave. Each wave has its own effulgence and colour, and vibrates at a certain angle, called polarization. This theory withal applies to laser light but it is more parallel than any other light source. Every component of the beam has virtually exact same direction and so the beam will diverge very minute. With a good laser an object at a distance of 1 km can be illuminated with a dot about 60 mm in radius. As it is so parallel, it can be focused to minutely diminutive diameters where concentration of light energy becomes so high that you can drill, cut, or turn with the ray. It is withal possible to illuminate and examine minutely diminutive details with the lasers, thus it is utilized in surgical applications and CD players as withal. It can withal be made very monochromic, thus only one light wavelength is present. This is not the instance with the mundane light sources. White light contains all colours in the spectrum, but even a coloured light, such as a red LED contains a reiterated interval of red wavelengths.
Optical Communications & Networking
Optical communications networks are enhancing a vital role such as there is high demand for capacity links. DWDM which designates dense wavelength division multiplexing is widely deployed at the core networks to distribute high capacity convey systems. Optical components such as, tuneable filters, termination contrivances, optical amplifiers transceivers, and integrate-drop multiplexers are becoming more trustworthy and affordable. Access network and metropolitan area networks are increasingly built with optical technologies to surmount the electronic blockage at network edges. Subsystems and incipient components for very high speed optical networks offer an incipient design options. Free-space optical communication has been arranged in space, while terrestrial forms are naturally inhibited by weather, geography and the availability of light.
- Erbium-Doped Optical Amplifier
- Wavelength-Division Multiplexing (Wdm)
- Coaxial Cable
- Optical Splitter
There are some surgical operations that are perplexing to perform with the conventional scalpel. Initial tribulations with laser beam showed that a finely focused beam from a carbon dioxide gas laser could cut through human tissue effortlessly and orderly. The surgeon could direct the beam from any angle by utilizing a mirror affixed on a movable metal arm. Consequently, now a day’s laser beam is the most desirable implement which is utilized as a standby for the conventional blade to perform arduous surgeries. Lasers were considered as most efficacious in operating on components that are facile to reach-areas on the body's exterior, including the auditory perceivers, skin, mouth, ocular perceivers and nasal discerner. But in recent years medicos have established the remarkable progress in emerging laser techniques for use in internal exploration and surgery. For illustration lasers are gradually used to emaculate plaque from people's arteries.
- Medical Diagnosis
- Photodynamic Therapy.
- Laser Surgery
- Endovenous Laser Therapy
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 contrivances of optical engineering are obligatory for rudimentary research in optical physics, and that research takes to the development of incipient contrivances and applications. Major study in optical physics is withal keen to quantum optics and coherence. In optical physics, research is additionally stimulated in areas such as ultra-short electromagnetic fields, the nonlinear replication of isolated atoms to excruciating, quantum properties of the electromagnetic field, and the atom-cavity interaction at high fields
- Low-Coherence Interferometry
- Near-Field Microscopy.
- Diffractive Optics
- Femtosecond Optics
An optical fiber is a flexible as well as transparent fiber made by silica glass or plastic to a diameter marginally thicker than that of a human hair. Optical fibers are utilized mostly to transmit light between the two cessations of the fiber and widely utilized in fiber-optic communications, unlike cable wires optical fiber sanctions transmission over longer distances and at higher bandwidths than wire cables. In lieu of metal wires fibers are utilized because signals peregrinate along them with lesser amounts of loss; in integration to this fibers are withal safe to electromagnetic interference, a quandary to which metal wires suffer extortionately. Specially designed fibers are additionally utilized for a sundry other applications, some of them being fiber lasers and fiber optic sensors.
- Single-Mode Fibers
- Multi-Mode Fibers,
- Fusion Splice
Optoelectronics is the field of technology that associates the physics of light with electricity. It incorporates the design, study and manufacture of hardware contrivances that convert electrical signals into photon signals and photons signals to electrical signals. Any contrivance that operates as an electrical-to-optical or optical-to-electrical is considered an optoelectronic contrivance. 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 ocular perceivers medical diagnostic systems.
Nano photonics is the study of the behaviour 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. Bio photonics can also be described as the advance and 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 examined, i.e. scattering material, on a microscopic or macroscopic scale.
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 mechanism of enhancement effect of SERS is a matter of debate in the literature. There are two primary theories and their mechanisms differ substantially, distinguishing them experimentally has not been forthright. The electromagnetic theory recommends the excitation of localized surface plasmons, and then the chemical theory recommends the formation of charge transfer complexes. The chemical theory applies only for the species that have formed a chemical bond with surface. So it cannot explain the observed signal enhancement in all the cases, whereas electromagnetic theory can put on even in those cases where the specimen is physisorbed 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 phenomena.
- Surface Enhanced Raman Scattering
- Surface Enhanced Infrared Absorption
- Surface Enhanced Hyper Raman Scattering
- Single Molecule Detection spectroscopy
- Surface Enhanced Surface Harmonic Generation
- Tip Enhanced Raman spectroscopy
- Strong Light-Molecule, Matter Interaction
- Surface Enhanced Optical Processes on Nanostructures
- Other Surface Enhanced Optical processes
Fiber lasers are rudimentally different from other laser types; in a fiber laser the active medium that engenders the laser beam is genuinely isolated within the fiber optic itself. This discriminates them from fiber-distributed lasers where the beam is merely conveyed from the laser resonator to the beam distribution optics. Fiber lasers are now prominent because of its most focusable or highest effulgence of any laser type. The essentially scalable concept of fiber lasers has been used to scale multimode fiber lasers up to the output power more preponderant than 50 kW and single mode fiber lasers capable of 10kW in puissance. Optical imaging is an imaging technique that customarily describes the comportment of visible, ultraviolet, and infrared light utilized in imaging. Since light is an electromagnetic wave, kindred portents occur in X-rays, microwaves, radio waves.
- Doped Fiber Amplifiers
- Surface-Acoustic Wave
- Double-Clad Fiber
- Technology Conference | Fibre Optics Events | Regional State Laser Expo | Laser Technology Conference Europe | Laser and Photonics Meet
Plasma is one of the four basic conditions of issue, and was first depicted by scientist Irving Langmuir in the 1920s Unlike the other three states, strong, fluid, and gas, plasma does not exist uninhibitedly on the Earth's surface under typical conditions. Plasma must be falsely created by warming or subjecting a nonpartisan gas to a solid electromagnetic field to the point an ionized vaporous substance turns out to be progressively electrically conductive, and long-go electromagnetic fields command the conduct of the issue.
Plasma and ionized gases have one of a kind properties and show practices dissimilar to those of alternate states, and the transition between them is for the most part a matter of terminology and subject to elucidation. In light of the encompassing ecological temperature and thickness, somewhat ionized or completely ionized types of plasma might be created. Neon signs or lightning storms are cases of mostly ionized plasma, while the inside of the Sun is a case of completely ionized plasma, alongside the sun powered corona] and stars
Atomic material science is the field of material science that reviews nuclear cores and their constituents and collaborations. Different types of atomic matterare additionally studied. Nuclear material science ought not be mistaken for nuclear material science, which thinks about the iota in general, including its electrons.
Revelations in atomic material science have prompted applications in numerous fields. This incorporates atomic power, atomic weapons, atomic medicineand attractive reverberation imaging, mechanical and horticultural isotopes, particle implantation in materials building, and radiocarbon datingin topography and paleontology. Such applications are considered in the field of atomic building. Molecule material science developed out of atomic material science and the two fields are normally educated in close affiliation. Atomic astronomy, the utilization of atomic material science to astronomy, is critical in clarifying the internal workings of stars and the cause of the synthetic components.
Gastroenterology, June 19-20, 2018 France | Microbiology and Virology, June 21-22, 2018 France | Advance Nursing Practice, June 21-22, 2018 France | Atomic and Plasma Science , July 16-17, 2018 Czech Republic | Psychiatry & Psychology , August 06-07, 2018 Czech Republic | Sustainable & Renewable Energy, Aug 13-14, 2018 France | Materials Science and Engineering, August 23-25, 2018 Netherlands | Microbiology & Infectious Diseases, Sep 03-04, 2018 Netherlands | Nursing and Nursing Diagnosis , September 10-11, 2018 Czech Republic | Nursing & Midwifery, September 10-11, 2018 Czech | Oncology 2018, Sep 24-25 , 2018 Portugal | Pathology , October 08-10, 2018 Netherlands | Nuclear Medicine & Radiation Therapy, October 01-02, 2018 Sweden | Big Data Analysis & Data Mining, October 01-02, 2018 Netherlands | Vaccines & Vaccination, Oct 26-27, 2018 Hungary| Liver & Pancreatic Diseases, Nov 12-13 , 2018 France | Hepatology & Hepatitis , Nov 12-13, 2018 France | Nutraceuticals & Nano-Technology, Nov 15-16, 2018 France | Orthopedics, Nov 29-30, 2018 Netherlands| Dentistry 2018, Nov 29-30, Czech Republic | Dermatologists 2018, Nov 29-30, 2018 Czech Republic | Nursing & Healthcare, Dec 3-4, 2018 Netherlands | Dementia, Dec 6-7, 2018 Netherlands | Chemistry Research, Dec 10-11, 2018 Netherlands | Dental & Dental Hygiene, March 25-26, 2019 Hungary
Top Optics and Photonics Universities Worldwide:
University of Bristol | King's College London | University of Stirling | Robert Gordon University| Cardiff University | University of Essex | University of the Arts London | University College London | University of Kent | The University of Warwick | The University of Manchester | Swansea University | Alliance Manchester Business School | Lancaster University | The University of Edinburgh | University of Cambridge | University of Oxford | University of Glasgow | Newcastle University | University of Liverpool | Loughborough University | University of Leicester | University of Surrey | University of Strathclyde | Aston University | Coventry University | University off Portsmouth | University of Hull | Northumbria University At Newcastle | University of Huddersfield | University of Central Lancashire| Leeds Beckett University | London Southbank University | University of Birmingham | University of Leeds | University of Southampton | Queen Mary University of London | University of Aberdeen | The University of Exeter | University of Bath | University of Sussex | University of Dundee | Bangor University | Keele University | University of Bradford | Plymouth University | University of Hertfordshire | University of Salford | University of Bedfordshire
George Washington University | University at Buffalo Suny | Hofstra University | Stanford University | Harvard University | California University | University of Chicago | Yale University | University of Pennsylvania | University of Michigan | University of Wisconsin-Madison | Boston University | The Ohio State University | University of South Florida | University of Central Florida | Johns Hopkins University | Northwestern University | Carnegie Mellon University | Brown University | University of Texas | Georgia Institute of Technology | University of North Carolina | Rice University | Pennsylvania State University | Washington University | University of Maryland| University of Pittsburgh | Emory University | University of Minnesota | University of Florida | University of Colorado Boulder | University of Rochester | Texas A&M University | University of Illinois | Arizona State University | Vanderbilt University | Case Western Reserve University | University of Notre Dame | Georgetown University | The University of Arizona | Tufts University | University of Massachusetts Amherst | University of Miami | North Carolina State University | Rutgers University | Indiana University | The Katz School At Yeshiva University | University of Hawaii | Northeastern University | University of Kansas | University of Utah | University of lowa | University of Connecticut | University of Delaware | Wake Forest University
Tsinghua University | Fudan University | Shanghai Jiao Tong University | Zhejiang University | Nanjing University | Huazhong University | University of Shanghai For Science and Technology | Shenzhen University | Ural Federa University | Edity Cowan University | University of Tasmania | University of Wollongong | The University of Western Australia | National University of Singapore | The University of Sydney | Novosibirsk State University | The Australian National University | Monash University | The University of Newcastle | Tomsk State University | Russian State Social University | Bond University | Deakin University | Griffith University | Korea University | Victoria University | Waseda University | University of South Australia | Curtin University | Singapore Management University | Seoul National University | The University of Adelaide | Murdoch University | University of Canberra | Western Sydney University | Lobachevsky University | University of Santo Tomas | Volgograd State University | SRM University | Effat University | Siberian Federal University | The University of Tokyo | Kyoto University | University of Bern | University of Basel | Charles University | Keio University | University of Tsukuba | University of Tartu | Kobe University | Sogang University | University of Delhi | Okayama University | Doshisha University | University of Calcutta
University of Port Elizabeth | Pan Africa Christian University | Midrand Graduate Institute | University Of Johannesburg | University Of South Wales Online Programmes through UNICAF | UNICAF University | Middlesex University Mauritius | University of the Western Cape | Rhodes University | Stellenbosch University | University of Kwazulu Natal
Optical Society of America (OSA); New England Fiberoptic Council (NEFC); SPIE, the International Society for Optics and Photonics; Ontario Centre of Excellence for Photonics; Laser Institute of America (LIA); The Regional Center for Next Generation Manufacturing; Indian Laser Association; Optical Society of India; IEEE Lasers & Electro-Optics Society; American Society for Laser Medicine and Surgery; New Mexico Optics Industry Association; Taiwan Optics/Optronics Manufacturers' Association; Florida Photonics Cluster; Photonics Association (Singapore); Photonics Industry & Technology Development Association; Australian Optical Society (AOS); Danish Optical Society; Italian Physical Society (SIF) ; Finnish Optical Society (FOS); French Physical Society (SFP)
Edmund Optics: Optics - Imaging - Photonics - Optomechanics – Lasers; ZEISS United States of America, optical and optoelectronic technology; Meller Optics; Lasit, Franklin, MA; Messer Cutting Systems, Menomonee Falls, WI ; Synrad, Mukilteo, WA; AMTEC - Applied Manufacturing Technologies Inc, Anaheim, CA; Directed Light Inc, San Jose, CA; E-Blink; Polatis; Oxsensis; KDPOF; Ceravision; A.R.W. Optical Corporation; Cambrios Technologies Corp; Arroyo Instruments LLC; Electro-Optics Technology Inc; ESCO OPTICS; Infinity Photo-Optical Company; Vogelin Optical Company
Optics and Photonic Conferences:
International conferences on Photonics, Optoelectronics and Display Devices, September 19-20, 2018, Philadelphia, USA; 4th International Conference on Materials Physics, August 16-17, 2018, London, UK; 5th International Conference on Applied Physics, July 02-03, 2018, Vienna, Austria; International Conference on Molecular Physics, October 15-16, 2018, Ottawa, Canada; 4th International Conference on Astrophysics Physics, December 03-05, 2018, Chicago, Illinois, USA; OSA Bio photonics Congress: Biomedical Optics, 3-6 April 2018, Hollywood, FL, United States; SPIE Photonics West 2018, 27 January - 01 February 2018, San Francisco, United States; SPIE Medical Imaging, 10-15 February, 2018, Houston, Texas, United States; SPIE Photoptics Europe, 22-26 April 2018, Strasbourg, France; SPIE Optical SystemsDesigns, 14-17 May 2018, Frankfurt, Germany; Physical Society of Hong Kong(PSHK); United Physical Society of Russian Federation (UPS RF); Australian Optical Society (AOS); Danish Optical Society; Italian Physical Society (SIF); Italian Physical Society (SIF).
Journal of Optics
Applied Optics; Optical Materials; Journal of the Optical Society of America; Optics Express; Optics Letters; Journal of Biomedical Optics; Optics Communications; Biomedical Optics Express ; Laser & Photonics Reviews; Advanced Optical Materials; Optik; Journal of the Optical Society of America A; Journal of Modern Optics; Optical Fiber Technology; Journal of Lightwave Technology; Chinese Optics Letters; Nature Photonic; Journal of Nonlinear Optical Physics & Materials ; IEEE Journal of Quantum Electronics; IEEE Journal of Selected Topics in Quantum Electronics; Quantum Electronics ; Optical Engineering ; Applied Physics B; ACS Photonics; Optics and Spectroscopy; Journal of the European Optical Society: Rapid Publications ; Optica; Optical Review ; Physical Review A ; Ukrainian Journal of Physics