Revolutionizing Raman Spectroscopy with Advanced Low-Wavenumber Raman Lasers
Frankfurt Laser Company, a leading innovator in laser technology, proudly announces the launch of its latest product: the Lasers for Low-Wavenumber Raman. This cutting-edge laser system is designed to enhance the capabilities of Raman spectroscopy by enabling the precise detection of lattice vibrations and intermolecular interactions in solid materials.
Unprecedented Precision for Advanced Research
The low-wavenumber Raman shift capability of our new laser system allows researchers to obtain detailed information about the lattice vibrations of molecular crystals. This advancement opens new avenues for studying intermolecular interactions with unprecedented accuracy. High spectral purity, a critical requirement for these applications, is ensured by our state-of-the-art laser design.
Diverse Applications Across Multiple Fields
Our Lasers for Low-Wavenumber Raman system is poised to make significant impacts in a variety of research and industrial applications, including:
- Isomers in Drugs: Enabling precise identification and analysis of drug isomers, crucial for pharmaceutical development and quality control.
- Lattice Mode Analysis: Facilitating the study of lattice modes in various materials, providing deeper insights into material properties.
- Longitudinal Phonon Modes in Polymer Materials: Offering enhanced detection of phonon modes, essential for understanding and improving polymer materials.
- Metal Oxides and Salts: Improving the study of certain metal oxides and salts, leading to advancements in material science and engineering.
- Semiconductor Superlattices: Enhancing the analysis of semiconductor superlattices, critical for the development of next-generation electronic devices.
Specifications of the 532nm Laser
Our 532nm Laser model boasts impressive specifications tailored for low-wavenumber Raman applications:
- Wavelength: 532nm
- Spectral Purity: High spectral purity ensuring precise and accurate measurements
- Stability: Superior beam stability for consistent performance
- Power Output: Adjustable power output to meet diverse experimental needs
- User-Friendly Interface: Intuitive controls and easy integration into existing systems
