FemtoFiber dichro midIR
Broadband mid-infrared femtosecond laser source
- Broadband mid-IR laser source (> 400 cm-1)
- Wavelengths 5 – 15 µm (20 - 60 THz / 670 - 2000 cm-1)
- Average output power typ. 1 mW (integrated spectrum)*
- SAM mode-locked all PM fiber setup
- User friendly turnkey operation
- Fully automated DFG optimization
The new FemtoFiber dichro midIR represents an ideal laser source for mid-infrared spectroscopy and imaging. It provides a tunable broadband output in the wavelength range of 5 to 15 µm (20 - 60 THz, 670 - 2000 cm-1). The unique 400 cm-1 broad emission spectra allow to excite a wide range of materials at the same time. The air-cooled system is based on TOPTICAs proprietary fiber laser technologies and includes a difference frequency generation (DFG) unit as well as all necessary electronics into the same box. All functions and features are computer controllable by Ethernet or USB interfaces.
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Specification
Spectral tuning range 5 - 15 µm (20 - 60 THz / 670 - 2000 cm-1) Output Power typ. 1 mW (integrated spectrum)* Emission Bandwidth > 400 cm-1 Repetition Rate 80 MHz - Additional Information
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Options
- FemtoFiber pro multiarm-capable system (see AMP option), other laser systems can be added for pump-probe experiments. Please contact us for details.
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Applications
- Mid-infrared spectroscopy
- Mid-infrared imaging
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Downloads
Technical Drawing FemtoFiber dichro midIR
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Literature
- Article: Caldiroli, A. et al. Infrared nanospectroscopy depth-dependent study of modern materials: morpho-chemical analysis of polyurethane/fibroin binary meshes
- Article: Eisele, M. et al. Ultrafast multi-terahertz nano-spectroscopy with sub-cycle temporal resolution. Nat. Photonics 8 (2014)
- Article: Benz, A. et al., Strong coupling in the sub-wavelength limit using metamaterial nanocavities, Nat. Commun. 4, (2013)
- Article: Amenabar, I. et al., Structural analysis and mapping of individual protein complexes by infrared nanospectroscopy, Nat. Commun. 4, (2013)
- Article: Breuer, M. et al. Nano-FTIR Spectroscopy Reveals Material’s True Nature. Photonics Spectra (2018)