FIAN developed a number of lasers mid-IR

Staff at the Physics Institute. PN Lebedev Physical Institute have developed a number of solid-state lasers emitting in the mid-infrared range (2 — 6 mm). Such lasers can be used as Lidar — detection in the atmosphere of environmentally harmful impurities to locate objects in spectroscopy and also in medicine, e.g. in dentistry.

 Photo source:nanonewsnet.ru

Mid-IR lasers based on crystal compounds A2B6 (second and sixth groups of the Periodic Table of the Elements) doped with divalent transition metal ions. Beginning in the late 90s. and to present this class of crystals is of great interest due to a number

Continue reading FIAN developed a number of lasers mid-IR

FIAN developed a number of lasers mid-IR

Staff at the Physics Institute. PN Lebedev Physical Institute have developed a number of solid-state lasers emitting in the mid-infrared range (2 — 6 mm). Such lasers can be used as Lidar — detection in the atmosphere of environmentally harmful impurities to locate objects in spectroscopy and also in medicine, e.g. in dentistry.

 Photo source:nanonewsnet.ru

Mid-IR lasers based on crystal compounds A2B6 (second and sixth groups of the Periodic Table of the Elements) doped with divalent transition metal ions. Beginning in the late 90s. and to present this class of crystals is of great interest due to a number

Continue reading FIAN developed a number of lasers mid-IR

Ltd. Optosystems — a leading Russian manufacturer of lasers in medicine, lasers for science and technology

Ltd. "Optosystems" — a leading Russian manufacturer of lasers in medicine, lasers for science and technology. In the 90’s the company was created as a Spinoff Academic Institute — Center for Physics Instrumentation. The company’s products include excimer lasers, CO2 and nitrogen lasers, diode-pumped lasers, medical laser systems, LIDAR, high voltage power supplies, and magnetometers. The company is the only Russian producer of ophthalmic excimer laser systems for refractive surgery.

As a scientist, became an entrepreneur — Playing Technopark:

The company’s products:

Installing MicroScan — laser surgery for vision correction Photo source:microscan.ru

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Continue reading Ltd. Optosystems — a leading Russian manufacturer of lasers in medicine, lasers for science and technology

Russian scientists have developed a new solid-state electric-discharge laser.

 Photo source:nkj.ru

Process emission laser target of zinc selenide on the dielectric substrate with a circular shape and a hole diameter of 3 mm.

Staff at the Physics Institute. PN Lebedev Physical Institute (LPI) and the Institute of Electrophysics, Ural Branch of Russian Academy of Sciences (Ekaterinburg) have developed the design of a new type of laser — semiconductor electric discharge. With some approximation of the device can be called a perfect version of a streamer semiconductor laser.

An electric circuit semiconductor (PEL) Laser Power: 1 — transmission line 2 — Camera with electrodes 3 and

Continue reading Russian scientists have developed a new solid-state electric-discharge laser.

Award Prism Award 2010 awarded to Russian fiber laser

 Photo source:ntoire-polus.ru

Prestigious awards Prism Award 2010 in the category "Industrial Lasers" was awarded the fiber laser YLR-150/1500-QCW-AC, production NTO IRE Pole. This quasi-cw fiber laser has created a new class of industrial fiber lasers designed to solve the problems, which are usually used for classical solid state lasers pumped lasers. Quasi-optic lasers is better and safer efficiency 30% vs 3% of solid-state laser running at 19 "Rack housing with air-cooled. In a quasi-continuous mode, the output of the fiber laser is achieved 150 W average power and peak power of 1.5 kW at a pulse energy 15 J.

Continue reading Award Prism Award 2010 awarded to Russian fiber laser

In TSU learn to design lasers with desired properties

In Tomsk State University (TSU) Developed a high-performance computing system that allows to design Lasers with desired properties. It can significantly reduce the cost and expedite production.

Thanks to update and expand the equipment and devices Tomsk scientists are world-class results

Help STRF.ru: The project "Development of high-performance software for the simulation of advanced laser media based on organic compounds in solid matrices"Carried out with the support of the Federal Program" Research and Development "2007-2013. The amount of funding: budget — 8,000,000 rubles, extra-budgetary — 2,000,000 rubles. Deadline — October 12 2011 to September 5,

Continue reading In TSU learn to design lasers with desired properties

Production of fiber lasers in Russia

The state corporation "RUSNANO" to invest in expanding Russian-made fiber lasers used to work with the hardware, as well as in telecommunications equipment for long-haul communications. In accordance with the agreement signed in the framework of the Forum on Nanotechnologies RUSNANO acquires the company IPG Photonics to 25.1% of the shares of its Russian "daughter" NTO "IRE-Polus" worth up to $ 50 million originally RUSNANO acquires 12.5% stake a $ 25 million investment corporation will be used to expand production facilities in the suburban Friazino, sales development and new technologies. According to the General Director of NTO "IRE-Polus" Valentine Gapontseva

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Realization of the project to create picosecond lasers for cutting materials

In nanocenter "Tehnospark" (Moscow region). Starts implementing a project to create a picosecond lasers used for cutting materials and product labeling, for example, cases of smartphones, tablets and microcomputers.

Laser cutting of metals

Investors in the project are the trinity nanotcenter "Tehnospark" and Ulyanovsk Nanotechnology Center. Both nanotechnology center, created with the participation of the Fund for Infrastructure and Educational Programs RUSNANO will invest in the project of approximately 35 million.

Marking Technology picosecond lasers was developed by Russian scientists, physicists Paul and Alexander Polynkinym Tselikov at the University of Arizona. To further the implementation

Continue reading Realization of the project to create picosecond lasers for cutting materials

Get the short pulse semiconductor laser in the violet range

Scientists from the Lebedev Institute in collaboration with scientists from Cambridge in the framework of the European project received a blue laser picosecond pulse. These results open up new perspectives, not only in terms of scientific research, such as "photographs" of the movement of elementary particles, but also expand the use of laser technology, such as the creation of new data storage exceeding the capacity Blue Ray discs.

Violet laser

Laser — a generator of electromagnetic waves in the visible range, that is the source of light. The light of this generator has unique properties: monochromatic (all radiation within

Continue reading Get the short pulse semiconductor laser in the violet range

In LPI completed the next phase of development of lasers for projection television.

The principle of the laser TV apparatus developed based on a logical development of an electron-beam light source, wherein the phosphor layer is replaced by a semiconductor active layer in a microcavity. The idea of laser cathode-ray tube by the Soviet scientists, members of FIAN, NG Basov, OV Bogdanovich and A. Nasibova. The first Soviet laser display — "quantoscopes" developed in the Research Institute "Sycamore" in cooperation with the LPI, was released as a finished unit in the late 1980s. It used three cathode ray tubes laser emitting in the red, green and blue spectral regions. It was active display

Continue reading In LPI completed the next phase of development of lasers for projection television.

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