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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
June 30, 2021

Early Bird Registration
June 30, 2021

Register Now

About Conference


The 2nd edition of Global congress on Lasers, Optics and Photonics is completed successfully as an Online event .

It is with immense pleasure and a great honour, we would like to welcome you all to participate in our 3rd Edition of Virtual on-line conference Lasers, Optics & Photonics to be held during September 01-03, 2021. 

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 sharing the research and ideas. We believe in accelerating the possibilities of novel discoveries and enhancement in scientific research, by connecting scientific community. 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:

The online conference on Advancements of Lasers, Optics & Photonics 2021 offers a wonderful opportunity to meet and enhance new contacts in the field of Laser, Optics & Photonics. Global  experts will address the issues in respective fields and would provide information on new advancements and other technologies. This conference features world renowned keynote speakers, plenary talks, 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

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.)

Benefits of Using Web Conferencing


Saves on Travel Cost and Time 

Prior to web conferencing in business, if you wanted to bring together a sales team spread out across the country or meet face-to-face with a client who lives out of town, you (or they) had to travel. Not only can travel be expensive but it also takes time. Web conferencing saves businesses time and money. Within a few minutes, meeting attendees can log on to the meeting without wasting time at the airport or spending money on a ticket. Even if the business pays for a web conferencing service, it is typically less expensive than travel expenses. 

Increases Work Efficiency

Scheduling meetings typically takes more work than simply inviting or mandating attendees. If you’re the host, you have to book a conference room, plan the agenda and in some cases order catering and more. Web conferencing eliminates all of these booking needs, which means putting together a meeting is faster and easier than face-to-face meetings.

Flexible

Web conferencing provides more flexibility. Typically, you send an email invitation or pick up the phone to alert attendees of the web conference. Within minutes, attendees can log into the web conference system and the meeting starts.

Increases Engagement

Web conferencing allows the host to upload slides and other graphics, too. With the audio and visual components of holding a web conference, the format helps to increase the engagement level of the conference attendees.

Eliminates Geographic Barriers

Since anyone with an Internet connection and computer can attend a web conference, web conferencing eliminates geographic barriers of all kinds. Web conferencing opens up possibilities for communication with employees and customers worldwide.

Virtual Lab tours


Virtual Lab tours offer a promising option for creating a personalized online laboratory experience. Virtual laboratory tours in the sciences is becoming a very affordable resource to enhance the students,researchers,decision makers experience by reducing the uncertainty around the laboratory setting.

Have you ever wondered what a research lab looks like and what the scientists and engineers do inside a research laboratory?

Come join the virtual lab tour event!  We  provide a tour of advanced labs , describing their experimental setup and how they control it and take data. The demonstrations will be followed by an interactive Q/A session. Everyone is welcome! 

Topics Covered:

  • Optical Communications

  • Integrated Devices and nanophotonics

  • Fiber Drawing and optical fiber technology

  • Biophotonics

  • Quantum optics

  • Machine Learning

  • Optical Frequency Combs and Metrology

  • Lasers

  • Optoelectronics

Universities and Labs are encouraged to submit their applications. Any other topics apart from the above will also be considered.
Mail us on: laseroptics@linkinscience.com

Virtual Exhibitors


The Virtual Edition tradeshow floor gives exhibitors the opportunity to chat and communicate with attendees during LIVE virtual exhibit hours. With interactive features, that allow for video chats, pre-set appointments, and industry tours - the possibilities are endless!

Customizable Virtual Booths with the ability to upload logos, company offerings, social media presence, UNLIMITED files and videos for attendees to view. Immediate leads for any attendee that visits your booth or sets up a one-on-one virtual appointments.

REACH A LARGER AUDIENCE 
Attendees can access the Virtual Event from ANYWHERE - Bringing you relevant, diverse interactions with attendees from different market segments around the world. Meaning MORE attendees will get to see your company profile, products and services more efficiently.

GLOBAL PARTICIPATION – Attendees are not limited by their geographic locations – ALL parts of the world can attend!

COST-EFFECTIVE – Virtual Events provide the opportunity for additional staff participation and the opportunity to showcase additional products, services, and equipment

CONVENIENT INTERACTIONS - Attendees will have the option to chat and communicate with a virtual expo representative during LIVE virtual exhibit hours. With interactive features, that allow for video chats, pre-set appointments, and industry tours.

Attendees will have dedicated time to visit exhibitors to learn about the latest products, services and solutions through literature, videos, social media, and meeting with representatives.

Corporate Exhibit Virtual Branding Package $500

  • Post-Show Attendee List (emails  included)

  • Leads from attendees that set appointments and/or visit your booth (emails included)

  • Customizable Virtual Booth with ability to upload logos, company offerings, and social media presence

  • Company Logos with URL on Virtual Edition Website

  • The Attendee “Virtual Booth Crawl” – Attendees come to YOU!

  • Industry Tour - Company supplied 1-minute video posted on the event LOP website

  • Access to Virtual Leads & Sponsor Messaging: View list of attendees and send private messages to arrange appointments and virtually meet attendees via chat or on video

  • Enhanced Search Options for Attendees making it easy for them to search for your company name directly or by product categories


Why You Should Exhibit or Advertise at the

LOP 2021 – The Virtual Edition Event:
  • MAXIMUM exposure to thousands of leads

  • Opportunity to acquire NEW customers that cannot attend events

  • Interact with attendees & capture VERIFIED LEADS with full contact information

  • Raise brand awareness with continuous promotion – even AFTER the virtual show ends

    Efficient spend on virtual event and marketing budget with limited staff time needed

Scientific Committee

Click on the image to view biography

David C Brown

Founder and CTO, Advanced Photonic Sciences, USA

Dr. David C. Brown is the Founder and CTO of Advanced Photonic Sciences, a renowned laser physicist and engineer, and is a pioneer in cryogenic high-power solid-state lasers and in the understanding of thermal effects in cryogenic and fiber lasers. He has published widely on high average power CW, picosecond, and frequency-doubled picosecond cryogenic Yb:YAG laser systems, and on the room-temperature and cryogenic spectroscopy of Yb:YAG, Ho:YAG, Yb:LuAG, and Yb:Lu2O3. He has held senior research positions at The Laboratory For Laser Energetics at The University of Rochester, Northrop-Grumman, and the GE Corporate Research and Development Center.

Dr. Brown is a Fellow of The Optical Society of America (OSA), and serves as a reviewer for over 16 laser and optics journals worldwide. He is a life member of OSA and IEEE, and a frequent contributor to their journals. 

Yosef Ben Ezra

Dean of Engineering, Holon institute of Technology, Israel

Prof. Yosef Ben Ezra, Dean of Engineering faculty at Holon institute of Technology and CTO at Mer Group, received his Ph.D. from the Tel-Aviv University. During 2003-2005 Prof. Ben-Ezra was the principle researcher in joint industry-academy project TRANSMOR focused on automatic detection and classification of power transients in WDM optical communication networks. Between 2007-2009 Prof. Yosef Ben-Ezra was the principle researcher in a joint industry-academy project, DIAMOND, that developed high-spectral-efficient modulation techniques for modern optical communications.  In the framework of MAGNET project Tera-Santa Prof. Ben-Ezra developed the novel method of OFDM based on Multiwavelets. He is currently working on the silicon photonic implementation of the Multiwavelet OFDM in Peta-Cloud consortium.  He has co-authored over 85 papers in international journals and conferences in fields of semiconductor physics and nonlinear effects, and optical communication. He is the author 15 chapters in scientific books and of 12 patents.

Aurel Ymeti

CEO, Nanoalmyona BV, Netherlands

Aurel Ymeti is co-Founder and CEO of Nanoalmyona BV, a hightech Dutch company specialized in research and technology development, project management and new business development in Hightech Systems and Materials, including integrated photonics, Lab-on-a-Chip biosensing, optoelectronics, microscopy and nanomedicine.

He received a MSc in Theoretical Physics from the University of Tirana, Albania, in 1996, and a PhD in Applied Physics/Nanotechnology from the University of Twente, Netherlands, in 2004, working on the development of ultrasensitive multichannel integrated photonic (bio-)sensing platforms. Subsequently, he worked as a postdoctoral research fellow at the same University on development of portable devices for staging of HIV infection in point-of-care settings, later commercialized by Immunicon/Veridex (J&J).

In 2008 Aurel co-founded Ostendum, a spin-off company of the MESA+ Institute for Nanotechnology of the University of Twente, focusing on the commercialization of extremely sensitive and label-free optical analysis methods for rapid detection of micro-organisms and biomarkers based on the Lab-on-a-Chip Nanotechnology, initially invented and developed by Aurel during his PhD project. As CTO at Ostendum, he was responsible for the research and technology development, product management and new business development. In 2017 Aurel was appointed as Associate Professor at the Department of Engineering Physics, Polytechnic University of Tirana, Albania, working on application of High Tech Systems and Materials in innovative product development.

Aurel has (co)authored about 40 publications in refereed journals, peer-reviewed conference proceedings and books, is inventor of several patents and has presented more than 30 keynote/invited lectures in (inter)national conferences. He was/is involved as a member of the International Society for Optics and Photonics (SPIE), Optical Society of America (OSA), International AIDS Society (IAS), International Society for Analytical Cytology (ISAC) and Advisory Board Member of the Lifeboat Foundation. Aurel has served as Program Committee Member of several international conferences, including SPIE conference series of Defense, Security and Sensing (2010 – 2015).

His work on photonic biosensors has been featured in many well-known international media publications, incl. MIT’s Technology ReviewNatureLe Monde and BBC Focus Magazine and in 2007 the highly reputable business magazine FORBES has highlighted his work as one of the “13 Amazing New Nanotechnologies”. Aurel has received several awards including the prestigious European Lab-on-a-Chip Nanodevices Technology Innovation Leadership Award from FROST & SULLIVAN in 2013.

Domenico Di Mola

Vice President , Packet-Optical Platform, Juniper Networks, USA

Born in Southern Italy (Puglie), Domenico DiMola received his Master’s Degree in Electronic Engineering and post doctorate from Polytechnic of Turin-Italy. In 2008, Domenico led the Alcatel-Lucent high-speed engineering team that develop the first single carrier 100G QPSK Coherent solution based on 65nm CMOS integrated DSP-ASIC. Currently, he is VP of Engineering in Juniper’s Chief Development Office and leads the Packet-Optical platform team. He has been a keynote speaker at ECIO, ECOC, OFC and MWC and holds several fundamental patents in technologies, components and systems for DWDM networks. Domenico lives in California with his family and 2 dogs (Riri and Abby).


Domenico
has spent his entire professional life, enjoying leader positions, working with most talented and successful executive of Silicon Valley and Global Technology and Innovation world.

Amol Chandekar

Vice President, R & D, Nanoptek Corporation, France

Amol Chandekar has obtained his PhD at the university of Massachusetts Lowell, USA in the field of materials science and nanotechnology. For his PhD, Dr. Chandekar developed a novel way of making nanostructures on different substrates by altering the surface properties of the substrate using functionalized molecules such as alkane thiols and silanes. He also had synthesized gold nanoparticles, functionalized them with alkane thiols and fabricated chemical vapor sensor using them. Currently, Dr. Chandekar is a vice president R&D at Nanoptek Corporation. At Nanoptek, Dr Chandekar performed groundbreaking research to develop a highly efficient, robust, scalable and low cost TiO2 photocatalyst, which absorbs UV and near visible part of the solar spectrum, for water splitting for hydrogen production using sunlight only. While working at Anderlab technologies, he developed industrial scale formulations for synthesizing several nanoparticles including Titanium dioxide, zinc oxide, aluminum oxide and silicon dioxide and dispersions based on them. He has published several publications in the peer reviewed journals in the field of material science and nanotechnology and also has filed 17 US and international patents.

Denis Julien Gendron

Director of R&D, Claire Lasers Corporation, Canada

Denis Julien Gendron, Director of R&D, Claire Lasers Corporation, received his Ph.D. from the University of Waterloo. Denis J. Gendron earned a Physics B.Sc. Coop degree in 1988 from U. de Sherbrooke, with specialty in semiconductor manufacturing. In 1997, he graduated with Physics PhD from University of Waterloo, for his study of photodissociation and photo-ionization processes at molecular-level with pulsed laser in supersonic jet.  After graduation, he built the pulsed laser laboratory of Donna Strickland at U. of Waterloo (2018 Nobel Prize of Physics). In 1998, he joined the National Research Council of Canada (Ottawa, ON) as Research Associate, and then worked as a laser engineer for Fibertek Inc. (Herndon VA) in 2000, and Spectra-Physics Lasers Inc. (SPLI, Mountain View, CA) in 2001, and Coherent-AMT (now Clarion Medical, Cambridge, ON) in 2002. In 2003, Denis founded Claire Lasers to serve manufacturing industries. He has co-authored many papers in international journals and conferences in fields of chemical physics, laser science and engineering and biomedical lasers.  He authored 3 patents.

Paulo Monteiro

Associate Professor, Universidade de Aveiro, Portugal

Paulo P. Monteiro received the diploma “Licenciatura” in Electronics and Telecommunications Engineering from the University of Aveiro in 1988, the M.Sc. in Electronic Engineering, from the University of Wales UK, in 1990 and the Ph.D. in Electrical Engineering, from the University of Aveiro, in 1999. Presently, he is Associate Professor at the University of Aveiro and Senior Researcher at the Instituto de Telecomunicações. His main research interests include Optical Communication Networks and Microwave Photonics. He tutored and co-tutored successfully more than 14 PhD’s, having participated in more than 28 research projects (national and international). He has authored/co-authored more than 18 patent applications and over 110 papers in journals and 380 conference contribution. He is a member of the ECOC Technical Program Committee and Senior Member of IEEE.

F. J. Duarte

Principal Research Scientist, The University of Alabama in Huntsville

Duarte is the author of some 200 archival scientific publications. His contributions are mentioned in nearly two hundred scholarly books, including several classics, and his book titles are held at more than four thousand libraries, worldwide. Since 2017 he has been appointed Editor of the book series Coherent Sources and Applications for IoP Publishing (London). One of his papers, on laser pulse compression, is listed by the American Institute of Physics as relevant to the 2018 Nobel Prize in Physics.

Dr. Duarte is a Fellow of the Australian Institute of Physics (1987) and a Fellow of the Optical Society of America (1993). At the Eastman Kodak Imaging Research Laboratories he received the Chief Technical Officer Patent Award (1995). He has also received the Paul F. Forman Engineering Excellence Award (1995), for the "invention of the N-slit laser interferometer," and the David Richardson Medal (2016), “for seminal contributions to the physics and technology of multiple-prism arrays for narrow-linewidth tunable laser oscillators and laser pulse compression”, from the Optical Society.

Aurel Ymeti

Sr. Researcher NanoBio Research Group, Saxion University of Applied Sciences CEO Nanoalmyona BV, The Netherlands

Dr. Aurel Ymeti received a MSc in Theoretical Physics from the University of Tirana,  in 1996, and a PhD in Applied Physics/Nanotechnology from the University of Twente, in 2004, working on the development of ultrasensitive multichannel integrated photonic (bio-)sensing platforms. Subsequently, he worked as a postdoctoral research fellow at the same University on development of portable devices for staging of HIV infection in point-of-care settings, later commercialized by Immunicon/Veridex (J&J). Since 2008 Aurel is co-founder and CEO of Nanoalmyona BV, a hightech company specialized in project management and new business development in Hightech Systems and Materials, including integrated photonics and Lab-on-a-Chip biosensing technology. In 2008 he co-founded Ostendum, a spin-off of the MESA+ Institute of the University of Twente, focusing on the commercialization of label-free optical analysis methods for rapid detection of micro-organisms and biomarkers based on the Lab-on-a-Chip Nanotechnology, initially invented and developed during his PhD project. As R&D Director at Ostendum, he was responsible for the research and technology development and new product management. In 2017 Aurel was appointed as Associate Professor at the Department of Engineering Physics, Polytechnic University of Tirana, focusing on application of High Tech Systems in innovative product development. In 2019 he joined NanoBio Research Group, Saxion University of Applied Sciences, where as a Sr. Researcher he is involved in project management, R&D of Lab-on-a-Chip biosensor devices for point-of-care applications such as medical diagnostics and food safety.

Aurel has (co)authored about 50 publications in refereed journals, peer-reviewed conference proceedings and books, is inventor of several patents and has presented more than 40 keynote/invited lectures in (inter)national conferences. He has served as Program Committee Member and Chair of several international conferences, including SPIE conference series of Defense, Security and Sensing (2010 - 2015) and Advancements of Laser, Optics and Photonics Conference (2019 - 2021). His work on photonic biosensors has been featured in many well-known international media publications, incl. MIT’s Technology Review, Nature, Le Monde and BBC Focus Magazine and in 2007 the highly reputable business magazine FORBES has highlighted his work as one of the “13 Amazing New Nanotechnologies”. Aurel has received several awards including the prestigious European Lab-on-a-Chip Nanodevices Technology Innovation Leadership Award from FROST & SULLIVAN in 2013.

Paulo Monteiro

Associate Professor, Universidade de Aveiro, Portugal

Paulo P. Monteiro received the diploma “Licenciatura” in Electronics and Telecommunications Engineering from the University of Aveiro in 1988, the M.Sc. in Electronic Engineering, from the University of Wales UK, in 1990 and the Ph.D. in Electrical Engineering, from the University of Aveiro, in 1999. Presently, he is Associate Professor at the University of Aveiro and Senior Researcher at the Instituto de Telecomunicações. His main research interests include Optical Communication Networks and Microwave Photonics. He tutored and co-tutored successfully more than 14 PhD’s, having participated in more than 28 research projects (national and international). He has authored/co-authored more than 18 patent applications and over 110 papers in journals and 380 conference contribution. He is a member of the ECOC Technical Program Committee and Senior Member of IEEE.

Masakatsu Murakami

Professor, Osaka University

Masakatsu Murakami is Professor of Institute of Laser Engineering (ILE), Osaka University. After he defended Doctor thesis in 1988, he worked for three years at Max-Planck-Institute for quantum-optics (MPQ) in Germany on laser-matter interaction and heavy ion fusion physics.  After MPQ, he engaged himself in laser isotope separation for two years at Institute for Laser Technology (ILT) in Japan. Since 1993 he has worked at ILE, Osaka University.He now leads a theoretical group at ILE. The scope of current scientific interests concerns interactions with intense laser and matter, high temperature plasma, laser ion acceleration, hydrodynamic phenomena in astrophysics. Recently he has proposed a new concept“micro-bubble implosion” (Scientific Reports8, 7537(2018)) to generate ultrahigh field by using ultraintense ultrashort laser.The proton beams thus generated have high potential for a number of future applications such as cancer therapy, compact neutron sources, and fusion energy.

David C Brown

Founder and CTO, Advanced Photonic Sciences, USA

Dr. David C. Brown is the Founder and CTO of Advanced Photonic Sciences, a renowned laser physicist and engineer, and is a pioneer in cryogenic high-power solid-state lasers and in the understanding of thermal effects in cryogenic and fiber lasers. He has published widely on high average power CW, picosecond, and frequency-doubled picosecond cryogenic Yb:YAG laser systems, and on the room-temperature and cryogenic spectroscopy of Yb:YAG, Ho:YAG, Yb:LuAG, and Yb:Lu2O3. He has held senior research positions at The Laboratory For Laser Energetics at The University of Rochester, Northrop-Grumman, and the GE Corporate Research and Development Center.

Dr. Brown is a Fellow of The Optical Society of America (OSA), and serves as a reviewer for over 16 laser and optics journals worldwide. He is a life member of OSA and IEEE, and a frequent contributor to their journals. 

Yosef Ben Ezra

Dean of Engineering, Holon institute of Technology, Israel

Prof. Yosef Ben Ezra, Dean of Engineering faculty at Holon institute of Technology and CTO at Mer Group, received his Ph.D. from the Tel-Aviv University. During 2003-2005 Prof. Ben-Ezra was the principle researcher in joint industry-academy project TRANSMOR focused on automatic detection and classification of power transients in WDM optical communication networks. Between 2007-2009 Prof. Yosef Ben-Ezra was the principle researcher in a joint industry-academy project, DIAMOND, that developed high-spectral-efficient modulation techniques for modern optical communications.  In the framework of MAGNET project Tera-Santa Prof. Ben-Ezra developed the novel method of OFDM based on Multiwavelets. He is currently working on the silicon photonic implementation of the Multiwavelet OFDM in Peta-Cloud consortium.  He has co-authored over 85 papers in international journals and conferences in fields of semiconductor physics and nonlinear effects, and optical communication. He is the author 15 chapters in scientific books and of 12 patents.

Lara Motta

Professor, Biophotonics Applied to Health Sciences Postgraduate Program

Dentist, PhD in Public Health.Experience in Dentistry and Health Management, with emphasis on the evaluation of new health technologies. In oral health, he works on the themes of temporomandibular disorders and bruxism in children and adolescents, well-being and quality of life. Application and clinical evaluation of biophotonics application protocols for health repair, lasers and LEDs. Analysis of the insertion and cost-effectiveness of new health technologies.

Scientific Sessions

Abstract Submission : June 30, 2021

Early Bird Registration : June 30, 2021

  • 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 trends 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 : June 30, 2021

Early Bird Registration : June 30, 2021

Awards

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 be awarded under the following categories:

  1. Outstanding Submitted Abstract
  2. Best Research of the conference as evaluated by the Scientific Committee
  3. Best Poster of the conference depending on the rating given.
  4. 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. The decision made by the Scienctific Committe would be final. We want you to grab this opportunity and participate in the conference...!


Testimonials


Past Conference Report

Global Congress on Laser, optics and photonics(2020):

Linkin Science has successfully completed 2nd Global Congress on Laser, optics and photonics (Virtual On-line Meet) during September 02-04,2020. We thank all our expertise Scientific Committee Members and speakers who offered a constant support for the conference.

The Global Excellence Awards for 2nd Global Congress on Laser, optics and photonics 2020 are;

Tania Schalch, UNINOVE – Nove de Julho University, Brazil (Best Poster)

Rita De Ferreira, UNINOVE – Nove de Julho University, Brazil (Best Research)

 

Global Congress on Laser, optics and photonics(2019):

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.