Mode-locked Yb fiber laser kit
A super short pulse laser that usually costs several million yen is available for 980,000 yen (excluding tax). It is also recommended for those building a fiber laser for the first time.
By using the mode-locked Yb fiber laser kit, it is easy to create an ultrashort pulse fiber laser that employs nonlinear polarization rotation as the mode-locking method. This kit selects proven components and combines posts and spacers to ensure that the laser beam passes through various optical elements.
basic information
Features - Ultra-short pulse laser priced at 980,000 yen (excluding tax) - Easy construction with detailed design plans - All optimal optical products have been selected Applications - Laser microscopy - Light source for OCT - Light source for laser processing - THz wave generation - Material property evaluation - Theoretical education and training for fiber lasers Components - Semiconductor laser (LD) - WDM coupler - Yb-doped fiber - Isolator - Collimator set - Wave plate - Pair of diffraction gratings - Set of mirrors - Set of holders - Assembly manual * The breadboard in the photo, LD power supply kit (PS-LDD-CW-K02), and general-purpose LD power supply set are optional. Specifications - Center wavelength: 1040 nm - Spectral width: 8.0 nm - Average output: 10 mW - Pulse width: 670 fs - Repetition frequency: 40 MHz - Output method: spatial output
Price information
980,000 yen (excluding tax) The price may vary depending on the options, so please feel free to contact us.
Price range
P4
Delivery Time
OTHER
Delivery times may vary depending on stock availability, so please feel free to contact us.
Model number/Brand name
FL-MLYb-kit
Applications/Examples of results
We would like to introduce papers that use mode-locked fiber lasers with a configuration similar to this kit. Some customers have customized this experimental kit as a laser light source for laser microscopy, OCT, processing, or THz applications. Research results using this kit have been published in the world-class journal Nature Photonics. (1) "High-speed molecular spectral imaging of tissue with stimulated Raman scattering," Nature Photonics 6, 845–851 (2012). (2) "Stimulated Raman hyperspectral imaging based on spectral filtering of broadband fiber laser pulses," Optics Letters, Vol. 37, Issue 3, pp. 431-433 (2012).
