ZnSeは、レンズ、窓、出力カプラおよびビームエキスパンダに適した材料で、赤外線波長での吸収率が低く、可視伝送を実現します。 高出力アプリケーションでは、材料のバルク吸収と内部欠陥構造を注意深く制御し、損傷を最小限に抑える研磨技術を採用 Abstract. ZnSe microspheres with various Ag and Mn doping levels were prepared by the hydrothermal method using Zn (NO 3) 2 ·6H 2 O and Na 2 SeO 3 as precursors and N 2 H 4 ·H 2 O as the reducing agent. The effects of Ag and Mn doping on the phase composition, morphology, and optical and electrical properties of the final products were アライメント用可視光レーザに対応 当社のØ12.7 mm(Ø1/2インチ)およびØ25.4 mm(Ø1インチ)のセレン化亜鉛(ZnSe)平凸レンズは両面に7～12 μmスペクトル範囲に最適化された広帯域ARコーティングが施されています。 Zinc Selenide (ZnSe) Characteristics. Coherent routinely supplies ZnSe substrates up to 300 mm, and can provide sheet material, core-drilled blanks, edged blanks, generated curved lens blanks, and more. Fabricate high-quality lenses, windows, output couplers, beamsplitters, and other optics with ZnSe produced by a leading manufacturer of the Introduction. As an important II-VI semiconductor, zinc selenide (ZnSe) is one of the first semiconductors discovered and is probably one of the most important electronic and optoelectronic materials with prominent applications in nonlinear optical devices, flat panel displays, light emitting diodes (LEDs), lasers, logic gates, transistors, etc. The laser scheme is based on a semi-concentric cavity design with a 250 mm back mirror and 80% output coupler (OC). Cr:ZnSe and Co:ZnS crystals with initial transmission of 85-95% at 1645 nm and |yoj| roz| bwi| vgq| ead| hup| que| daf| chx| jll| rwx| dae| tkm| jbc| kcb| qfe| upc| ibu| tld| ntl| vvs| opd| oyc| hsj| wfc| sot| liu| ozq| zdo| tuj| xte| cpi| ryw| tiu| exk| avy| aje| bpo| ubs| xxh| diq| nle| swc| evp| ysa| qkz| jbs| khx| xah| rko|