

FemtoFiber ultra 780
强大的 780 nm 飞秒光纤激光
- 780 nm 超快光纤激光
- 平均功率 > 500 mW,脉冲持续时间 < 100 fs/ < 150 fs
- SAM锁模,保偏光纤基MOPA系统
- 坚固,可靠,紧凑,经济实惠的一键式系统
- 风冷系统,功耗 < 150 W
femtofiber ultra 780 是toptica 第三代超快光纤激光器系列的第一台系统。该系统在中心波长 780 nm 处提供短于 150 fs的激光脉冲。通过使用功率放大器,系统可提供超过 500mw 的平均输出功率。作为一款紧凑型飞秒激光系统,它具有交钥匙操作和经济高效的设计。
TOPTICA Photonics的超快femtofiber ultra 780激光器提供780 nm的波长,适合用于双光子显微镜的常见染料,如dapi,fitc,香豆素,alexa fluor 488,若丹明b,nadh或若丹明6g等。
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Specification
激光器参数* ultra 780
短脉冲型号ultra 780
标准型号ultra 780
高功率型号中心波长 780 nm 脉冲持续时间 < 100 fs < 150 fs < 150 fs 平均输出功率 [w. AOM, optional] > 1000 mW > 1000 mW > 1500 mW 重复率 80 MHz Motorized dispersion precompensation (GDD) -30,000 .. 0 fs² -
Applications
- 2P-Polymerization
- Semiconductor inspection
- 2P-Microscopy
- SHG microscopy
- Downloads
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Literature
- Scientific Article: Manfred Bayer, et al., Lifting restrictions on coherence loss when characterizing non-transparent hypersonic phononic crystals, Nature, Scientific Reports 11, Article number: 17174 (2021)
- Scientific Paper: Sponges as bioindicators for microparticulate pollutants? (2021)
- Scientific Article: Yuichi Yoshida, et al., Detection of Lung Cancer Cells in Solutions Using a Terahertz Chemical Microscope, Sensors (2021)
- Scientific Article: Manfred Bayer, et al., Resonant thermal energy transfer to magnons in a ferromagnetic nanolayer, Nature, Nature Communications 11, Article number: 4130 (2020)
- Scientific Paper: Cell and tissue manipulation with ultrashort infrared laser pulses in light-sheet microscopy (2020)
- Scientific Paper: Comparing the performance of a femto fiber-based laser and a Ti:sapphire used for multiphoton microscopy applications (2019)
- Application Note: Time-resolved microscopy and spectroscopy using asynchronously synchronized fiber lasers (2018)
- Application Note: Multiphoton microscopy using a femtosecond fiber laser system (2016)