Gao Zhengmin, director of Fuxin City Economic and Information Commission, led the relevant personnel to the Raw Materials Division of the Ministry of Industry and Information Technology, and reported on the fluorine chemical industry in Fuxin City, striving for support. The two parties held discussions on how to promote the development of the fluorine chemical industry in Fuxin City, and initially determined that the Ministry of Industry and Information Technology will hold a report on the “Fluorine Chemical Industry Policy†in Fuxin City in the third quarter of this year and the China Fluorochemical Industry Development Summit Forum. At that time, the key domestic fluorine chemical enterprises, scientific research institute leaders and experts will be invited to Fuxin to study the national fluorine chemical industry policy and promote the development of the new fluorine chemical industry.
The Department of Raw Materials of the Ministry of Industry and Information Technology believes that Fuxin has started earlier in the development of fluorinated workers in China and has advantages in resources, industry, etc. In recent years, it has achieved great results and has a good development trend. It is recommended that Fuxin develop fluorine chemical workers to seize the opportunity of the provincial party committee and the provincial government to support new opportunities, do a good job of top-level design, and do a good job in the integration of fluorine chemical industry, coal chemical industry, and salt chemical industry. In the construction of the park, it is necessary to go in accordance with the requirements of green environmental protection, increase the entry threshold of enterprises, and take the road of green development. According to the Department of Raw Materials, the Ministry of Industry and Information Technology, the first is to use Fuxin as a key area for the development of the fluorine chemical industry in the country, and to increase guidance and support; second is to give priority to the new fluorine chemical industry in project construction; third is to develop the development policy of the fluorine chemical industry. In the past, the new fluorine chemical industry was invited to participate in the drafting and verification of the national fluorine chemical industry policy.
Holography is divided into two processes which are recording and reproduction,the interference fringes is generated on the holographic plate through the superposition between the reference light and the reflected light during the recording. Then, after the holographic plate is processed in the darkroom, an image exactly same to the original object will be reproduced from the interference pattern on the photosensitive sheet by diffraction. Compared with ordinary photographic, Holography not only records the amplitude of light field of the object, but also records the relative phase of the reflected light waves. Holography is widely used in holographic microscopy, holographic security, data storage, deformation measurement, holographic interferometry and etc.
Features
â– High reliability single longitudinal mode lasers ( coherence length >50m )
â– Easy to install and maintain. Relevant components can be provided
â– Customized solution can be provided upon request
Laser Related
Wavelengths: 360nm, 405nm, 457nm, 473nm, 532nm, 556 nm, 561 nm, 589 nm, 633 nm, 656nm, 660nm, 671nm, 1064nm,
1342nm, 1550nm, etc. Multi-wavelengths system is also available on request.
Interference fringes
Etalon interference ring
Wavelength and linewidth test
| Accessories |
 |
 |
 |
 |
 |
| Beam Shutter | Beam Expander | Wave Plate | Beam Splitter | Laser Goggles |
| Research achievement of CNI laser Optogenetics from customers |
(1) Three-dimensional holographic photostimulation of the dendritic arbor
(J. Neural Eng. 8 046002; doi:10.1088/1741-2560/8/4/046002) (CNI-405nm)
(2) Two-wavelength exposure enhancement in holographic data storage of spirooxazine-doped polymers
(Optics Communications Vol. 338, 1 March 2015, Pages 269–276) (CNI-405nm)
(3) Depth resolved hyperspectral imaging Spectrometer based on structured light illumination and Fourier
transform interferometry (Biomedical Optics Express, Vol. 5, Issue 10, pp. 3494-3507 (2014)) ( CNI-473nm)
(4) Optical magnetic imaging of living cells (Nature 496, 486–489 (25 April 2013)doi:10.1038/nature12072) (CNI- 532nm)
(5) Multi-Wavelength Laser sensor for intruder detection and discrimination
(Optics and Lasers in Engineering Vol. 50, Issue 2, Pages 176–181) (CNI-532nm)
(6) Optical observation of shock waves and cavitation bubbles in high intensity laser-induced shock processes
(Applied Optics, Vol. 48, Issue 19, pp. 3671-3680 (2009)) (CNI-532nnm)
(7) Microscope spectrometer for light scattering investigations (Applied Optics, Vol. 49, Issue 22, pp. 4193-4201 (2010)) ( CNI-671nm/532nm)
Holography Laser,Hologram Laser Projector,Uv Laser Pointer,Single Longitudinal Mode Laser
Changchun New Industries Optoelectronics Technology Co., Ltd. , https://www.lasersciences.com