二次谐波带宽压缩器 SHBC

  • 输出波长 515 nm
  • 带宽< 10 cm-1
  • 脉宽 2 – 4 ps
  • 转换效率 > 30%
  • 用于泵浦 ORPHEUS-PS
  • 占地面积小

特性

  • 输出波长 515 nm
  • 带宽< 10 cm-1
  • 脉宽 2 – 4 ps
  • 转换效率 > 30%
  • 用于泵浦 ORPHEUS-PS
  • 占地面积小

SHBC 是二次谐波带宽压缩器,专用于将 PHAROSCARBIDE 飞秒激光器的宽带输出光束转换为窄带宽皮秒光束。

SHBC 可以组建多功能光学装置,固定波长或可调谐波长窄带皮秒脉冲与可调谐波长飞秒脉冲的组合,尤其适用于和频 (SFG) 光谱学和飞秒受激辐射拉曼光谱 (FSRS)。

型号 SHBC
输出波长 1) 515 nm ± 5 nm
转换效率 > 30%
输出脉冲带宽 2) < 10 cm-1
脉宽 3) 2 – 4 ps
  1. 取决于泵浦激光器型号。
  2. 带宽 < 2 cm-1 可定制,请联系 sales@lightcon.com
  3. SHBC 可以调节到更短的脉宽,但是随着脉宽变短带宽会相应增加。
型号 SHBC
泵浦光源 带有未压缩输出(选配功能)的 PHAROSCARBIDE 激光器
泵浦光脉冲能量 40 μJ – 4 mJ
最大泵浦光功率 40 W
型号 SHBC
主体尺寸 (长×宽×高) 426 × 351 × 119 mm
推荐的安装区域面积 (长×宽 ×高) 450 × 400 × 150 mm

Robust Binding of Disulfide-Substituted Rhenium Bipyridyl Complexes for CO2 Reduction on Gold Electrodes

M. Cattaneo, F. Guo, H. R. Kelly, P. E. Videla, L. Kiefer, S. Gebre, A. Ge, Q. Liu, S. Wu, T. Lian et al., Frontiers in Chemistry 8 (2020).

Incoherent phonon population and exciton-exciton annihilation dynamics in monolayer WS2 revealed by time-resolved Resonance Raman scattering

S. Han, C. Boguschewski, Y. Gao, L. Xiao, J. Zhu, and P. H. M. van Loosdrecht, Optics Express 21 (27), 29949 (2019).

Plasmonic Effects of Au Nanoparticles on the Vibrational Sum Frequency Spectrum of 4-Nitrothiophenol

M. Linke, M. Hille, M. Lackner, L. Schumacher, S. Schlücker, and E. Hasselbrink, The Journal of Physical Chemistry C 39 (123), 24234-24242 (2019).

A tunable time-resolved spontaneous Raman spectroscopy setup for probing ultrafast collective excitation and quasiparticle dynamics in quantum materials

R. B. Versteeg, J. Zhu, P. Padmanabhan, C. Boguschewski, R. German, M. Goedecke, P. Becker, and P. H. M. van Loosdrecht, Structural Dynamics 4 (5), 044301 (2018).

Exciton and phonon dynamics in highly aligned 7-atom wide armchair graphene nanoribbons as seen by time-resolved spontaneous Raman scattering

J. Zhu, R. German, B. V. Senkovskiy, D. Haberer, F. R. Fischer, A. Grüneis, and P. H. M. van Loosdrecht, Nanoscale 37 (10), 17975-17982 (2018).

Chemical Imaging of Self-Assembled Monolayers on Copper Using Compressive Hyperspectral Sum Frequency Generation Microscopy

D. Zheng, L. Lu, K. F. Kelly, and S. Baldelli, The Journal of Physical Chemistry B 2 (122), 464-471 (2017).

Compressive Broad-Band Hyperspectral Sum Frequency Generation Microscopy to Study Functionalized Surfaces

D. Zheng, L. Lu, Y. Li, K. F. Kelly, and S. Baldelli, The Journal of Physical Chemistry Letters 10 (7), 1781-1787 (2016).

SHBC 二次谐波带宽压缩器

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飞秒激光器飞秒科研系统

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产品目录 16/09/2022, 15.8 MB.

Femtosecond Laser Systems for Science

英文版产品目录

产品目录 16/09/2022, 15.2 MB.