Fiberdesign products are designed for use in multiple industries, covering a wide range of applications
Because of its specific expertise and year-long experience Fiberdesign has proved to be a trustworthy partner for companies and organisations worldwide and in all sectors of industry and science. And successfully, because its customer base is continuously increasing. Fiberdesign supplies its instruments to a broad variety of customers, which allows the company to gain considerable experience in various sectors.
Spectroscopy
Fiber optics are essential in spectroscopy, providing efficient light transmission with minimal signal loss. They are used to direct light from a source to a sample and transmit the resulting light to detectors, enabling precise measurements in various spectroscopic techniques like UV-Vis, IR, and Raman spectroscopy. The flexibility, low attenuation, and high bandwidth of fiber optics make them ideal for both laboratory and field applications. Their ability to operate in harsh environments and integrate seamlessly with automated systems enhances their value. Fiber optics have become indispensable in advancing spectroscopic analysis for industries like chemistry, biology, and materials science.
Magnetron sputtering
Fiber optics play a crucial role in magnetron sputtering processes by enabling precise monitoring and control.
In magnetron sputtering, a thin film deposition technique, fiber optic sensors provide real-time feedback on various parameters such as temperature, pressure, and plasma characteristics.
These sensors, known for their high sensitivity and resistance to electromagnetic interference, offer significant advantages in environments with high-powered equipment.
By integrating fiber optics, magnetron sputtering systems achieve better control over the deposition process, leading to improved film quality, uniformity, and overall performance.
This advancement enhances the efficiency and reliability of thin film coatings in various industries.
Soil Sensing
Fiber optic technology is revolutionizing soil sensing, providing real-time, high-resolution data on moisture, temperature, and chemical composition.
Unlike traditional sensors, fiber optics offer continuous monitoring over large areas with minimal maintenance.
These systems use light pulses to detect changes in soil properties, enabling precise agricultural and environmental management.
Farmers and researchers benefit from improved irrigation efficiency, early disease detection, and enhanced crop yields.
Additionally, fiber optic sensors contribute to sustainable land use by reducing water waste and optimizing resource allocation.
As precision agriculture advances, fiber optics stand out as a reliable, cost-effective, and scalable solution for soil monitoring.
Raman
Fiber optic technology enhances Raman spectroscopy by enabling remote, real-time chemical analysis with high sensitivity.
Optical fibers efficiently transmit laser light to a sample and collect scattered Raman signals, allowing non-invasive material identification.
This technology is widely used in pharmaceuticals, environmental monitoring, and industrial process control.
Fiber optics extend Raman spectroscopy to hard-to-reach or hazardous locations, improving safety and efficiency.
With advancements in fiber design, such as specialized coatings and multiplexing, Raman systems achieve greater precision and reliability.
As industries seek faster, more accurate analytical tools, fiber optic-based Raman spectroscopy remains a key solution for modern scientific applications.
Vacuum
Fiber optics are essential for use in vacuum environments, enabling reliable data transmission, sensing, and laser delivery without electrical interference.
Unlike traditional wiring, optical fibers withstand extreme conditions, including ultra-high vacuum (UHV) and cryogenic temperatures.
They are widely used in scientific research, space exploration, and semiconductor manufacturing, where precise optical signals are essential.
Fiber optic sensors in vacuum chambers monitor temperature, pressure, and chemical composition with high accuracy.
Their non-metallic nature prevents contamination and electromagnetic interference, making them ideal for sensitive applications.
As technology advances, fiber optics continue to enhance performance and efficiency in demanding vacuum-based systems.