Femtoline Low GDD Mirrors
Minimized Group Delay Dispersion (GDD): These mirrors are designed to minimize GDD, ensuring minimal temporal dispersion of femtosecond laser pulses.
High Reflectance: Utilizing dielectric coatings, Femtoline Low GDD Mirrors achieve high reflectance across a narrow bandwidth, essential for maintaining pulse integrity.
High Damage Threshold: The mirrors can withstand high-power femtosecond laser applications due to their robust dielectric coatings.
Excellent Optical Quality: Made from Corning UV fused silica 7980 0F, they offer outstanding optical properties, mechanical robustness, and minimal thermal expansion.
Precision Surface Quality: Achieved through high-precision control techniques, the mirrors have a λ/10 flatness and 10/5 S/D surface quality.
Customizable: Besides standard products, customized mirrors are available to meet specific wavelength and waveband requirements.
Applications: Spectroscopy, Microscopy, Laser Processing, Nonlinear Optics, Medical Applications, Communication Systems, etc.
Femtoline Low GDD Mirrors are specifically designed to minimize GDD while maximizing reflectance across a specific spectral range. These mirrors ensure minimal temporal dispersion of femtosecond laser pulses, making them essential for maintaining pulse integrity and achieving high-resolution performance in ultrafast applications.
Features:
- Minimized Group Delay Dispersion (GDD): These mirrors are designed to minimize GDD, ensuring minimal temporal dispersion of femtosecond laser pulses.
- High Reflectance: Utilizing dielectric coatings, Femtoline Low GDD Mirrors achieve high reflectance across a narrow bandwidth, essential for maintaining pulse integrity.
- High Damage Threshold: The mirrors can withstand high-power femtosecond laser applications due to their robust dielectric coatings.
- Excellent Optical Quality: Made from Corning UV fused silica 7980 0F, they offer outstanding optical properties, mechanical robustness, and minimal thermal expansion.
- Precision Surface Quality: Achieved through high-precision control techniques, the mirrors have a λ/10 flatness and 10/5 S/D surface quality.
- Customizable: Besides standard products, customized mirrors are available to meet specific wavelength and waveband requirements.
Applications:
- Spectroscopy: Ensuring high-resolution performance by preserving pulse duration and minimizing temporal distortion.
- Microscopy: Enhancing image quality and resolution in ultrafast microscopy techniques.
- Laser Processing: Improving efficiency and precision in applications like material processing and micromachining.
- Nonlinear Optics: Facilitating efficient frequency conversion processes and other nonlinear optical applications.
- Medical Applications: Enhancing the performance of ultrafast lasers used in medical diagnostics and treatments.
- Communication Systems: Supporting high-speed optical communication systems that require minimal pulse broadening.
In addition to the standard offerings, Kingwin Optics provides customized Low GDD mirrors tailored to other reflection wavebands and wavelengths. Free design services are available upon request, offering versatility to meet diverse application needs.For more information or to request custom specifications, please visit our website or contact our sales team.