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The OEMs in the global CO2 laser market are continually adding new features in their products, resulting in regular launches of innovative products in the market, which analysts forecast to grow at a CAGR of 5.36% over the period 2014-2019. Complete CO2 Laser Market by end-user applications (communication applications, communication applications, medical applications, military applications and others) report spread across 69 pages, analyzing 5 major companies and supported with 36 data exhibits is now available at http://www.sandlerresearch.org/co2-laser-market-analysis-report-2015-2019.html. According to the CO2 Laser Market report, there is an increased demand for highly precise and efficient laser products in manufacturing and healthcare industry because CO2 laser systems also provide benefits such as treatment of skin imperfections including pigmentation, removal of moles, birthmarks, sun-damaged skin, and precancerous spots. Thus, seen and increased demand for cosmetic dentistry or aesthetic dentistry has created the demand for high-precision laser products. The CO2 laser used in communication applications and material processing applications has been the highest contributor to the total revenue in 2014. These applications are expected to maintain their dominance during the forecast period due to the increase in the capability of the satellite communications and manufacturing sectors. However, due to increase in application of CO2 lasers in medical devices, the healthcare segment will be the fastest growing segment during the forecast period. In terms of geography, the market is dominated by APAC with a share of over 42% in 2014 because of the presence of numerous automobile and consumer electronic device manufacturers in China, South Korea, Taiwan, and Japan. The APAC region is followed by other geographical regions, such as Europe and the Americas. Order a copy of Global CO2 Laser Market Analysis Report 2015 - 2019 report at http://www.sandlerresearch.org/purchase?rname=45825. Further, the CO2 Laser Market Analysis Report 2015-2019 report states that competition from other technologies poses a threat for CO2 lasers. CO2 lasers face intense competition from fiber lasers in material processing for industrial applications. The global CO2 laser market is broadly demarcated by well-established and prominent vendors. Due to increased use of CO2 laser for end-user applications such as medical, military, and metal processing, major vendors have increased their spending on R&D to customize their products as per customers' requirements and enhance market share. The following companies are the key players in the Global CO2 Laser Market: Coherent, GSI Group, Han's Laser Technology Industry Group, Rofin-Sinar Technologies, and Trumpf. Other Prominent Vendors in the market are: Fanuc, GBOS Laser Technology, Lumenis, Laser Photonics, and Quanta System SpA. For decision makers in Semiconductor & Electronics industry, SandlerResearch.org has multiple newly published research titles that might be of interest: Global Fiber Laser Market 2015 - 2019: Analysts predict the global fiber laser market to grow at a CAGR of 16.2% over the period 2014 - 2019. To calculate the market size, the report considers revenue generated through different applications of fiber lasers: material processing application [High power (Cutting and Welding), Marking, Fine processing, Micro processing], advanced application, medical application, and other application. The key players in the Global Fibre Laser Market: Coherent, IPG Photonics, Newport, Rofin-Sinar Technologies, and Trumpf. Other Prominent Vendors in the market are: Active Fiber Systems, Advalue Photonics, Calmar Lase, Furukawa Electric, Hypertherm, Lumentum, and Nufern. Browse complete report at http://www.sandlerresearch.org/global-fiber-laser-market-2015-2019.html. About Us: SandlerResearch.org offers in-depth studies and research reports on a range of micro markets. Not limited to any one industry, SandlerResearch.org offers research studies on agriculture, energy and power, chemicals, environment, pharmaceuticals, biotechnology, water, advanced materials and much more. Connect With Us on:


OXFORD, Mass.--(BUSINESS WIRE)--IPG Photonics Corporation (NASDAQ: IPGP) announced today that in conjunction with its scheduled quarterly financial results news release, Chairman and Chief Executive Officer Dr. Valentin P. Gapontsev and Senior Vice President and Chief Financial Officer Timothy P.V. Mammen will host the Company’s second-quarter 2015 financial results conference call on Tuesday, July 28, 2015 at 10:00 a.m. ET. To listen to the live call, please visit the “Investors” section of IPG’s website or dial (877) 709-8155 or (201) 689-8881. An archived webcast will be available for one year on the Company’s website. IPG Photonics Corporation is the world leader in high-power fiber lasers and amplifiers. Founded in 1990, IPG pioneered the development and commercialization of optical fiber-based lasers for use in diverse applications, primarily materials processing. Fiber lasers have revolutionized the industry by delivering superior performance, reliability and usability at a lower total cost of ownership compared with conventional lasers, allowing end users to increase productivity and decrease operating costs. IPG has its headquarters in Oxford, Massachusetts, and has additional plants and offices throughout the world. For more information, please visit www.ipgphotonics.com.


OXFORD, Mass.--(BUSINESS WIRE)--IPG Photonics Corporation (NASDAQ: IPGP) announced today that in conjunction with its scheduled quarterly financial results news release, Chairman and Chief Executive Officer Dr. Valentin P. Gapontsev and Senior Vice President and Chief Financial Officer Timothy P.V. Mammen will host the Company’s first-quarter 2015 financial results conference call on Tuesday, April 28, 2015 at 10:00 a.m. ET. To listen to the live call, please visit the “Investors” section of IPG’s website or dial (877) 709-8155 or (201) 689-8881. An archived webcast will be available for one year on the Company’s website. IPG Photonics Corporation is the world leader in high-power fiber lasers and amplifiers. Founded in 1990, IPG pioneered the development and commercialization of optical fiber-based lasers for use in diverse applications, primarily materials processing. Fiber lasers have revolutionized the industry by delivering superior performance, reliability and usability at a lower total cost of ownership compared with conventional lasers, allowing end users to increase productivity and decrease operating costs. IPG has its headquarters in Oxford, Massachusetts, and has additional plants and offices throughout the world. For more information, please visit www.ipgphotonics.com.


(http://www.researchandmarkets.com/research/wjc2zl/laser_systems) has announced the addition of the "Laser Systems - Global Strategic Business Report" report to their offering. Annual estimates and forecasts are provided for the period 2013 through 2020. Also, a seven-year historic analysis is provided for these markets. Market data and analytics are derived from primary and secondary research. Company profiles are primarily based on public domain information including company URLs. This report analyzes the worldwide markets for Laser Systems in US$ Million. The Global market is analyzed by the following: End-Use Sectors: Metalworking/Processing/Fabrication Job Shops, Electronics & Electrical industry, and Others. The report provides separate comprehensive analytics for the US, Canada, Japan, Europe, Asia-Pacific, Middle East/Africa, and Latin America. The report profiles 87 companies including many key and niche players such as:


Keaton G.L.,IPG Photonics Inc. | Leonardo M.J.,IPG Photonics Inc. | Byer M.W.,IPG Photonics Inc. | Richard D.J.,JDS Uniphase Corporation
Optics Express | Year: 2014

We derive analytic expressions for the Brillouin thresholds of square pulses in optical fibers. The equations are valid for pulse durations in the transient Brillouin scattering regime (less than 100 nsec), as well for longer pulses, and have been confirmed experimentally. Our analysis also gives a firm theoretical prediction that the Brillouin gain width increases dramatically for intense pulses, from tens of MHz to one GHz or more. © 2014 Optical Society of America. Source

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