Theme: Lighting the way towards Laser science and Optics evolution

Laser Optics 2017

Laser Optics 2017

With the triumph of 6 years of successful conferences on laser and optics, we aim to continue this convention in 2017 as well. Conference Series LLC invites all the participants across the world to grace with your presence 7th World Congress on Laser and Optics (Laser-Optics 2017) scheduled for July 31 to August 02, 2017 at Milan, Italy

This year Laser-Optics Conference focuss will be on the following concepts :

 Laser - Optics Principles

  Laser  (Light Amplification by Stimulated Emission of Radiation)   is a device that emits light through a process of optical intensification based on the stimulated discharge of electromagnetic radiation. Laser light is essentially created by a laser device. Such light has some very distinct properties, which differentiates it from light of other roots. Laser light is usually transmitted in the form of a laser beam, i.e. it disseminate dominantly in a well-defined direction with moderate beam divergence. Laser beams has the special property that the light waves emitted coherently are of same wavelength and same colour. In numerous however not all cases, laser beams likewise has a much higher level of temporal coherence, which is equal to the long coherence length. In maximum cases, laser light is linearly polarized. This means that the electric field fluctuates in a specific spatial direction. Laser beam can travel over great distances or can be focused to a very small region with a brightness which outdoes that of the sun.
The standard of a laser depends on three separate elements that are as follows:
Active laser medium
Pumping mechanism
Optical resonator

 Optics is a branch of physics that studies electromagnetic radiation (for example, light and infrared radiation), its interactions with matter, and instruments used to gather information due to these interactions. Optics includes the study of sight.

Optical Components are used to alter the state of light through a variety of means including focusing, filtering, reflecting, or polarizing. Optical Components are integrated into a limitless number of applications, such as microscopy, imaging, or interferometry, for industries ranging from the life sciences to testing and measurement. Optical Components are often designed using specific substrates or anti-reflection coatings to optimize performance in designated ultraviolet, visible, or infrared wavelengths or wavelength ranges.

Related Conferences  Laser Optics conferences Physics conferences | Laser technology meetings |Lasers,Optics & Photonics conferences 

6th International Conference on Photonics July31-August 01,2017 Milan,Italy; International Conference on Quantum Optics & Quantum Computing August 24-25,2017 Las Vegas,USA; 5th International Conference and Exhibition on Lasers,Optics & Photonics Nov 28-30,2016 Georgia,USA; International Conference on Optometry and Vision Science May 14-15,2017 Singapore City,Singapore;35th International Congress on Applications of Lasers & Electro-Optics, Oct 16-20, 2016, San Diego, United States; The 4th International Conference on Photonics, Optics and Laser Technology, Feb 17-19, 2016, Rome, Italy; 10th International Conference on Optics-Photonics Design and Fabrication, February 28-March 02, Weingarten, Germany;The 100th OSA Annual Meeting and Exhibit/Laser Science XXXII, Oct 17- 21, 2016, New York, USA;

TRACK 2: Lasers -Their Types & Characteristics

There are many different types of lasers. The laser medium can be a solid, gas, liquid or semiconductor. Lasers are commonly designated by the type of lasing material employed:

  • Gas laser is a laser in which an electrical current is discharged through a gas to produce coherent light. Gas Lasers are used in applications that necessitate laser beams with long coherence lengths, very high beam quality, or single mode operation. Edmund Optics offers a wide selection of lasers, including a variety of Gas Lasers such as HeNe, Argon-Ion, or CO2. The gas laser was the first continuous-light laser and the first laser to operate on the principle of converting electrical energy to a laser light output.
  • Chemical laser is a laser that attains its energy from a chemical reaction. Chemical lasers can reach continuous wave output with power getting to megawatt levels. Normal case of compound lasers are the concoction oxygen iodine laser (COIL), all gas-stage iodine laser (AGIL), and the hydrogen fluoride (HF) and deuterium fluoride (DF) lasers, both operating in the mid-infrared region.
  • Solid state laser is a laser that uses a gain standard that is a solid, rather than a liquid such as in dye lasers or a gas as in gas lasers. They are well applied for laser cutting, laser welding, removing, drilling and scribing. Solid-state lasers have also been recognised to be the ideal beam source for most marking applications. 
  • Dye laser is a liquid or fluid laser. Liquid lasers are those lasers which utilizes fluid as a dynamic medium. The dye lasers yield output   whose wavelengths are in the observable, ultra violet and   near infrared spectrum. It has advantages like it is available in visible and non-visible form. Beam diameter is very less .It has greater efficiency as much as 25%.
  • Excimer lasers (the name is derived from the terms excited and dimers) use reactive gases, such as chlorine and fluorine, mixed with inert gases such as argon, krypton or xenon. When electrically stimulated, a pseudo molecule (dimer) is produced. When lased, the dimer produces light in the ultraviolet range.


TRACK 3: Laser Pulses

TRACK 4:High Energy and Short Pulse Lasers

TRACK 5: Laser Diodes & Sensors

A laser diode, also identified as an injection laser or diode laser, is a semiconductor device that produces coherent radiation in which the waves are altogether at the identical frequency and phase i.e. in the noticeable or infrared (IR) range when current goes through it. Laser diodes are used in optical fiber systems, compact disc (CD) players, remote-control devices, intrusion-detection systems.

There are three key methods in semiconductors that are related with light:

  • Light absorption:  Absorption occurs when light move in a semiconductor and its energy is transmitted to the semiconductor to produce further free electrons and holes. This effect is broadly used and permits devices like photo-detectors and solar cells to function.

  • Spontaneous emission:  The second outcome known as spontaneous emission happens in LED’s. The light formed in this manner is what is termed disjointed. In further words the frequency and phase are random, although the light is positioned in a given portion of the spectrum.

  • Stimulated emission:  Stimulated emission is not the same. A light photon going into the semiconductor lattice will strike an electron and discharge energy in the form of another light photon. The technique in which this occurs releases the new photon of similar wavelength and phase. In this way the light that is produced is said to be coherent.


Laser sensors are used where small objects or precise positions are to be detected. They are designed as through-beam sensors, retro-reflective sensors or diffuse reflection sensors. Laser light consists of light waves of the same wave length with a fixed phase ratio (coherence). This results in an important feature of laser systems that is the almost parallel light beam.

Position recognition type laser sensor-This kind of sensor identifies the location of a target. This is achieved by using a triangulation system or a time measurement system.The alteration in the distance to the target disturbs the position of the light concentrated on the CMOS sensing element. This data is used for detecting the target position. The laser emits a laser beam to the target. The light reflected off the target is concentrated by the receiver lens to form an image on the light receiving element. When the distance varies, the concentrated light reflects at a different angle and the position of the image changes accordingly.

Remote sensing and lasers - Remote sensing is one method for computing, observing or monitoring a process or object without physically touching the object under the observation. Remote sensing devices using lasers are classified as Lidar, which works with radiowaves. Lidar, in any case, works with radiation inside the scope of obvious light.

TRACK 6:Laser Safety

A laser is a light source that can be unsafe to people exposed to it. Even low power lasers can be menacing to a person's eyesight. The low divergence and coherence of laser light means that it can be focused by the eye into a very small spot on the retina, causing in localised burning and permanent impairment in seconds. Certain wavelengths of laser light can root cataracts or even scorching of the vitreous humor, the fluid in the eyeball. Infrared and ultraviolet lasers are predominantly dangerous, since the body's "blink reflex", which can protect an eye from excessively bright light, works only if the light is visible.


TRACK 7: Laser Applications

No other scientific discovery of the 20th century has been demonstrated with so many exciting applications as laser. Laser nowadays finds its uses in various new and challenging fields. Some of them are mentioned as under:

Such as Laser Range Finder is used to knock down an enemy tank, it is necessary to range it very accurately. Because of its high intensity and very low divergence even after travelling quite a few kilometres, laser is ideally suited for this purpose. The laser range finder works on the principle of radar. It makes use of the characteristic properties of the laser beam, namely, monochromaticity, high intensity, coherency, and directionality. The laser range finders using neodymium and carbon dioxide lasers have become a standard item for artillery and tanks. These laser range finders are light weight and have higher reliability and superior range accuracy as compared to the conventional range finders. The laser range finder is superior to microwave radar as the former provides better collimation or directivity which makes high angular resolution possible.

TRACK 8: Optical Communications

Optical communication is one kind of communication in which light is utilised to carry the signal to the distant end, instead of electrical current. Optical communication depends on on optical fibers to transmit signals to their destinations. A transmitter/receiver, modulator/demodulator, a light signal and a transparent channel are the building blocks of the optical communications framework.

Because of its plentiful advantages over electrical transmission, optical fibers have basically substituted copper wire communications in core networks in the developed world.


TRACK 9: Optoelectronics-Advanced Materials and Devices

Devices that are essentially electronic in nature but involve light(e.g. liquid-crystal display,light emitting diodes,and array photodetectors) comes under Optoelectronics.

Optoelectronics is the knowledge and application of electronic devices that sense, detect and control light, generally reviewed a sub-field of photonics. In this perspective, light habitually includes invisible forms of radiation such as gamma rays, X-rays, ultraviolet and infrared, in count to the visible light. Optoelectronics devices are electrical-to-optical or vice versa, instruments that apply such devices in their working. Electro-optics is often erroneously used as synonym, but is a widespread branch of physics that take care of all interactions between light and electric fields, whether or not they form portion of an electronic device. Optoelectronics is centred on the quantum mechanical outcomes of light on electronic materials, particularly semiconductors, occasionally in the existence of electric fields.

Optoelectronics Components:

·         Optical devices, e.g. waveguides and optical fibres

·         Light emitting devices, e.g. LEDs and laser diodes

·         Light receiving devices, e.g. photodetectors and solar cells


·         Display instruments, e.g. LCDs and LED display

·         Data storage instruments, e.g. optical disks related instruments

·         Input/output instruments, e.g. scanner and digital cameras

·         Medical instruments, e.g. lasers related instruments for medical usage

·         Illumination instruments, e.g. LED lightings


   Extended Systems

·         Optical Communications Systems

·         Solar power system


TRACK 10: Optical Waveguides 

An optical waveguide is a spatially inhomogeneous formation or structure for guiding light, i.e. for limiting the spatial region in which light can circulate. Generally, a waveguide comprises a region of increased refractive index, compared with the surrounding medium known as cladding. Though, guidance is also possible, by the usage of reflections, at metallic interfaces. Certain waveguides also include plasmonic effects at metals.

Most waveguides exhibit two-dimensional guidance, hence confining the extension of guided light in two dimensions and allowing transmission essentially only in one dimension.

The most significant category of two-dimensional waveguide is the optical fiber. There are also one-dimensional waveguides, often called planar waveguides.

TRACK 11: Optical Networking

An optical networks connects computers or any other device which can generate or store data in electronic form using optical fibers.

Need for Optical Networks:

Demand for bandwidth

The tremendous growth of connected users online

More and more bandwidth -intensive network applications:

• data browsing on the WWW

• Applications requiring large bandwidth

• video conferencing

• download movie

Advantages of optical networks:

High speed capability (theoretically possible to send 50 Terabits per second using a single fiber) 

low signal attenuation

low signal distortion

low power requirement

low material usage

small space requirements 

low cost

 immunity to electrical interference.

TRACK 12: Adaptive Optics Progress


TRACK 13: Applications of Optics


TRACK 14: Future Trends in Laser & Optics



Conference Series LLC warmly invites all the participants across the globe to attend the "7th World Congress on Lasers and Optics" during July 31- August 02, 2017 Milan, Italy.The principle theme of the conference isLighting the way towards Laser science and Optics evolution.The theme of the social gathering highlights the interdisciplinary nature of Lasers and Optics. Scientific Tracks planned for this meeting will empower the members and individuals to learn extremes.

Conference Series LLC Organizes 1000+ Global events every year across USA, Europe & Asia with support from 1000+ more scientific societies and Publishes 700+ Open access journals which contains over 75000 eminent personalities, reputed scientists as Editorial Board members.

Laser-Optics 2017 is an international conference, encompassing  the behaviour and property of light, Optical interconnects, Optical Networking, and fundamental research and development in the field of Laser and Optics. It provides a premier technical forum for reporting and learning about the latest research and development, as well as for launching new applications and technologies. Events include hot topics presentations from all over the world and professional networking with industry leading working groups and panels.

Importance& Scope:

Laser Technology is one of the growing fields and scope of Optics and Laser Technology encompasses in several areas such as development in all different types of lasers, development in optoelectronic devices & photonics and development in Optical instruments & components. It has many Medical applications mainly in the field of  Ophthalmology, Radiology, Dentistry, and Dermatology and it also has many Industrial applications such as Laser cutting, Laser welding, Laser scribing etc. At present the Laser Technology market is around $7 billion and it is expected to grow up to $17.06 billion by the year 2020.

Why Milan??

Milan, the capital of Lombardy, has a population of 1.3 million people. It is the biggest industrial city of Italy with many different industrial sectors. It is a magnetic point for designers, artists, photographers and models. Milan has an ancient city centre with high and interesting buildings and palazzos, which is why so many people from all over the world want to see the city of glamour.

It is the biggest industrial city of Italy with many different industrial sectors as manufacturing of textiles and garments, car manufactory, chemistry, mechanical tools and heavy machinery. Another important industry is tourism and of course fashion.

Why to attend???

7th World Congress on Lasers and Optics  is an international conference encompassing clinical, translational, and fundamental research and its involvement for the development in the field of Lasers and Optics .It provides a premier technical forum for reporting and learning about the latest research and development, along with launching new applications and technologies. Events include hot topics presentations from all over the world and professional networking with industries, leading working groups and panels.
Laser and Optics Conference paves a platform to globalize the research by installing a dialogue between industries and academic organizations and knowledge transfer from research to industry. Laser Optics 2017 aims in proclaim knowledge and share new ideas amongst the professionals, industrialists and students from research areas of Lasers and Optics  to share their research experiences and indulge in interactive discussions and special sessions at the event.

Conference Highlights:

Laser & Optics Principles

Laser- Their Types & Characteristics

Laser Pulses

High Energy and Short Pulse Lasers

Laser Diodes&  Sensors

Laser Safety

Laser Applications

Optical Communications

Optoelectronics-Advanced Materials an Devices

Optical Waveguides

Optical Networking

Adaptive Optics Progress

Application of Optics

Future Trends in Laser & Optics


Target Audience:

Eminent Scientists/Research Professors in the field of lasers & Optics

Directors of Laser companies 

Junior/Senior research fellows in Lasers & Optics

Electronics and  Communication Engineers

Electrical Engineers


Members of different Lasers and Optics associations

7th World Congress on Lasers and Optics 

Dates and Venue: July 31-August 02, 2017, Milan,Italy 

(Theme: Lighting the way towards Laser science and Optics evolution)


Laser Optics-2016 welcomes attendees, presenters, and exhibitors from all over the world to Milan,Italy. We are delighted to invite you all to attend and register for the “ Lighting the way towards Laser science and Optics evolution (Laser Optics-2017)” which is going to be held during July 31-August 02, 2017 in Milan, Italy.

The organizing committee is gearing up for an exciting and informative conference program including plenary lectures, symposia, workshops on a variety of topics, poster presentations and various programs for participants from all over the world. We invite you to join us at Laser Optics-2017, where you will be sure to have a meaningful experience with scholars from around the world. All members of the Laser Optics-2016 organizing committee is look ing forward to meeting you in Milan,Italy.

Importance & Scope
Optics & Laser Technology aims to provide a vehicle for the publication of a broad range of high quality research and review papers in those fields of scientific and engineering research appertaining to the development and application of the technology of optics and lasers.
The scope of Optics & Laser Technology encompasses
•development in all types of lasers
•advances in optoelectronic devices and photonics
•changes in new photonics and optical concepts
•developments in conventional optics, optical instruments and constituents
•methods of optical metrology, comprising interferometry and optical fibre sensors
•LIDAR and other non-contact optical measurement practises, including optical methods in heat and fluid flow
•uses of lasers to materials processing, optical NDT presentation (containing holography) and optical communication.

For more details refer to:

The Target Audience:

  • Laser equipment and system providers
  • Technology providers
  • End users industries of laser technology
  • Component manufacturers
  • Service providers
  • Research organizations and consulting companies
  • Laser technology-related associations, organizations, forums, and alliances
  • Investors
  • Key players

Growth of Laser Market in various sectors

The laser technology market was valued at USD 10.09 Billion in 2015 and is expected to grow at a CAGR of 5.33% during the forecast period.The base year used for this study is 2015 and the forecast period considered is between 2016 and 2022. The report provides a detailed analysis of the laser technology market on the basis of laser type, application, vertical, and geography. Growing focus of manufacturers and industrialists on including laser technology in the manufacturing processes is one of the major driving factors for this market. Besides this, the increasing adoption of laser technology in biology, scientific research, and medical sectors due to its benefits is also accelerating the growth of the market.

The global laser diode market is expected to grow at a CAGR of 13.0% between 2015 and 2020. The Asia-Pacific region is expected to dominate the market at a CAGR of 15.0% between 2015 and 2020.The major companies involved in the laser diode market such as Osram Licht Group (Germany), Panasonic Semiconductor Solutions Co., Ltd. (Japan), ROHM Co., Ltd. (Japan), IPG Photonics Corp. (U.S.), Sharp Corp. (Japan), Coherent, Inc. (U.S.), Hamamatsu Photonics K.K. (Japan), JDS Uniphase Corp. (U.S.), Jenoptik AG (Germany), Newport Corp. (U.S.), Rofin-Sinar Technologies, Inc. (U.S.), Finisar (U.S.), Avago Technologies (Singapore), Trumpf GmbH + Co. KG (Germany), and Nichia Corp. (Japan).

The global adaptive optics market is expected to reach USD 7,666.4 Million by 2020, at a CAGR of 99.4% between 2015 and 2020. The military & defense sector was the largest contributor to the overall adaptive optics market, accounting for a share of 56.1% in 2014. The biomedical sector accounted for a share of 21.7% of the market in 2014. The Americas accounted for the largest share of 44.0% of the Adaptive optics market in 2014; it is expected to grow at a CAGR of 94.0% between 2015 and 2020.

After arriving at the overall market size, the total market has been split into several segments and sub segments which have been verified through primary research by conducting extensive interviews of people holding key positions such as CEOs, VPs, directors, and executives. These market breakdown and data triangulation procedures have been employed to complete the overall market engineering process and arrive at the exact statistics for all segments and sub segments. The breakdown of the profiles of primaries is depicted in the figure below.

The APAC region is expected to play a key role in the laser technology market and grow at the highest rate during the forecast period. This growth can be credited to the high adoption of this technology in this region, especially in China and Japan. China and Japan have a wide scope for automotive, commercial, and medical industries. Laser technology, being widely used in equipment and systems under these industries, the overall adoption rate of laser technology in China and Japan is projected to be high. Besides this, rapid modernization in this region has accelerated the growth, especially of the semiconductor & electronics vertical which has ultimately led to the growth of the market in this region.

The figure below shows the estimated growth of the market between 2013 and 2020.


Major Optics Associations in Europe

European Acoustics Association (EAA)

European Biophysical Societies' Association (EBSA)

European Colloid and Interface Society (ECIS)

European Federation of Organizations for Medical Physics (EFOMP)

European Group for Atomic Spectroscopy (EGAS)

European Optical Society (EOS)

Top Laser Organizations

European Laser Association

European Medical Laser Association

British Medical Laser Association

Laser Trade Associations




Statistics which shows growth in application of Optics



World Market growth rates for laser & Optics  in Billions




Laser Tech 2016

The “2nd Global Optometrist Meeting and Trade Fair on Laser Technology” was hosted by the Conference Series LLC during July 28-29, 2016 at Sheraton Berlin Grand Hotel Esplanade, Berlin, Germany with the theme, “Emerging New Trends with Advances in Laser Technology”. Benevolent response and active participation was received from the Editorial Board Members of Conference Series LLC Journals as well as from the scientists, engineers, researchers, students and leaders from the fields of Laser Technology and Optometry, who made this event successful.

Laser Tech 2016 witnessed an amalgamation of peerless speakers who enlightened the crowd with their knowledge and confabulated on various new-fangled topics related to the fields of Laser Technology and Optometry. The conference was initiated by the Honourable Moderators, Giuseppe Antonacci, Centre for Life Nano Science, Italy and Xinhua Peng, University of Science and Technology of China, China with introductory speech followed by a series of lectures delivered by Honourable Guests, Bernhard Roth, Leibniz University Hannover, Germany; Sergei A Kozlov, ITMO University, Russia and Bruno Bêche, Université de Rennes, France and the members of the Keynote Forum Artur V Gleim, ITMO University, Russia; Carl Christoph Jung, CCJ Software, Germany and Markus Pollnau, KTH – Royal Institute of Technology, Sweden.

This conference was a path breaking opportunity for students who were given a chance to exhibit their paramount research work through Poster Presentations and discuss with the exalted scientists. The meeting was carried out through various sessions, in which the discussions were held on the following major scientific tracks:

  • Types of Lasers
  • Optometry
  • Optometry Practice
  • Advances in Eyesight Tests
  • Pediatric Optometry
  • Laser Technology
  • Advances in Laser Technology
  • Laser Sensors
  • Fiber Laser
  • Laser Optics
  • Laser applications
  • Photonics Engineering
  • Applications of Photonics
  • Nanophotonics & Biophotonics
  • Optoelectronic Devices and Materials
  • Medical Laser Technology
  • Lasers in Industry
  • Laser Soldering
  • Laser Safety and Regulations
  • Lasers in Nanotechnology

Conference Series LLC offers its heartfelt appreciation to adepts of the field, various outside experts, company representatives and other eminent personalities who supported the conference by facilitating the discussion forums. This inspires us to continue organizing events and conferences for further research in the Laser Technology & Optometry.

With the grand success of Laser Tech 2016, Conference Series LLC is proud to announce the “3rd Global Optometrist Meeting and Trade Fair on Laser Technology” to be held during September 11-13, 2017 at Paris, France.

Let us meet again @ Laser Tech 2017

For more details visit:


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