WE'VE GOT THE GREEN LIGHT Equinox is a single frequency CW 532 nm laser designed for a range of applications including pumping any Ti:Sapphire system. FIND OUT MORE The future, made possible M Squared is a leading developer of photonic and quantum technologies, harnessing the power of light ...
品牌:4LASERS 型号:Ti:Sapphire采购咨询为您推荐Geckodrive步进倍增器G901X RFMI晶体振荡器XVT9030 RFMI晶体振荡器XTC4004P RFMI滤波器SF2467H RFMI滤波器SF2316K-1 PAC前置放大器1281 产品介绍 掺钛蓝宝石(Ti3+:Al2O3)是一种广泛使用的过渡掺金属激光晶体。Ti3+ 离子具有很大的增益带宽,这为在短脉冲...
Ti-Sapphire Lasers – The TU Series - Photonics Industries International Inc.About Us
One Box Ti:Sapphire Lasers High output power maximizes penetration depth in multiphoton imaging Short output pulse width to provide high peak power Wide tuning range for efficient excitation of all commonly used fluorophores See All Features
4LASERS晶体Ti:Sapphire产地 所在地 暂无 暂无发送询价 进入展台点击查看电话 更新时间:2025-02-06 有效日期:还剩25天产品详情掺钛蓝宝石(Ti3+:Al2O3)是一种广泛使用的过渡掺金属激光晶体。Ti3+ 离子具有很大的增益带宽,这为在短脉冲激光器中获得非常宽的波长可调谐性提供了可能。要获得具有良好光学质量的晶体,...
品牌:4LASERS 型号:Ti:Sapphire 阅读次数:409 采购咨询 产品介绍 掺钛蓝宝石(Ti3+:Al2O3)是一种广泛使用的过渡掺金属激光晶体。Ti3+ 离子具有很大的增益带宽,这为在短脉冲激光器中获得非常宽的波长可调谐性提供了可能。要获得具有良好光学质量的晶体,Ti3+ 的掺杂浓度不应超过 0.25%。钛蓝宝石晶体的特点是上态...
立陶宛4lasers公司推出了一款新型连续波二极管泵浦钛蓝宝石激光器装置!Optogama的Ti:Sapphire激光器装置采用两个绿色固体激光二极管作为泵浦源,能够在近红外区域提供高达650毫瓦的输出功率,光学效率最高可达22%。绿色固体激光二极管波长为532nm,输出功率高达1.5W。客户可以根据自己的需求购买相对应的配件来组装适合自己应用的...
产品名称: 4LASERS-晶体-Ti:Sapphire 产品型号: Ti:Sapphire 产品介绍: 掺钛蓝宝石(Ti3+:Al2O3)是一种广泛使用的过渡掺金属激光晶体。Ti3+ 离子具有很大的增益带宽,这为在短脉冲激光器中获得非常宽的波长可调谐性提供了可能。要获得具有良好光学质量的晶体,Ti3+ 的掺杂浓度不应超过 0.25%。钛蓝宝石晶体的特点...
Titanium Doped Sapphire Crystal (Ti:Sapphire, Ti:Al2O3), is the most widely used laser crystal for widely tunable and ultrashort pulsed lasers with high gain and high power outputs.Applications: The tunable wavelengths that cover a broad range from 700 to 1000 nm make Ti:Sapphire an excellen...
The absorption band of Ti:Sapphire centered at 490 nm makes it suitable for variety of laser pump sources - argon ion, frequency doubled Nd:YAG and YLF, copper vapour lasers. Because of 3.2 µs fluorescence lifetime Ti:Sapphire crystals can be effectively pumped by short pulse flashlamps ...