סיב סיליקה טהורה | Pure fused silica fiber
סיב מסיליקה טהורה הוא בעצם סיב מקוורץ
היישומים של הסיב הם בתחום התעשייתי / מדעי והרפואי
ספקטרוסקופיה
תאורה מרחוק
חיישנים
ריתוך / הלחמה / סימון לייזר
פוטוליתוגרפיה
מכשירים אנליטיים
צמת דיודה לייזר
פירומטריה
ציוד מוליכים למחצה
אבחון רפואי
טיפולי לייזר
טיפול פוטודינמי
אם אתם מעוניינים לקבל מידע נוסף לגבי הסיבים שיש לנו להציע אתם מוזמנים ליצור עימנו קשר ואנחנו נשמח לספק לכם ייעוץ, פרטים נוספים והצעת מחיר
התקשרו עוד היום
נשמח לשוחח איתכם
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English:
Pure silica fiber is basically quartz fiber
The applications of the fiber are in the industrial / scientific and medical field
Spectroscopy
Remote lighting
Sensors
Welding / soldering / laser marking
Photolithography
Analytical instruments
Laser diode braid
Pyrometry
Semiconductor equipment
Medical diagnosis
Laser treatments
Photodynamic therapy
If you would like more information about the fiber we offer you are welcome to contact us and we will be happy to provide you with advice, more details and a quote
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Here are 10 products similar to pure fused silica fiber that are in top demand today:
- Doped Silica Fiber: The most common alternative to pure silica fiber is one where the core is doped with a material like germanium (GeO2) to increase its refractive index, which is the basis for most standard telecom fibers.
- Fluorine-doped Fiber: Instead of doping the core, this fiber uses fluorine to lower the refractive index of the cladding, which also allows for light guidance. It’s a common method for creating pure silica core fibers with specific numerical apertures.
- Large Core Multimode Fiber: These fibers have a larger core diameter than typical single-mode fibers and are in high demand for applications that need to transmit a large amount of optical power from a light source, such as in industrial laser systems and medical devices.
- Polarization-Maintaining (PM) Fiber: PM fibers are designed with a unique core or cladding structure to preserve the polarization state of light traveling through them. They are essential for fiber optic gyroscopes, interferometric sensors, and coherent communication systems.
- Rare-Earth-Doped Fiber: These are “active” fibers with cores doped with elements like Erbium (Er) or Ytterbium (Yb). They are crucial for building fiber lasers and optical amplifiers, which are key components in modern telecommunications and high-power laser systems.
- Plastic Optical Fibers (POFs): As a less expensive alternative to silica fibers, POFs are made from plastic and are in high demand for short-distance, low-speed applications like home audio networks, automotive data links, and industrial sensors.
- Photonic Crystal Fiber (PCF): Also known as “holey fiber,” this advanced fiber has a pattern of air holes running along its length that acts as the cladding. This design offers unique properties, such as single-mode operation over a wide range of wavelengths and high nonlinearity.
- Hollow-Core Fiber: A specific type of PCF where light travels through a hollow core. This is a very promising technology for next-generation telecommunications because it drastically reduces signal latency and loss.
- UV-Optimized Fiber: These fibers are a sub-type of pure silica fiber that are specifically manufactured to have ultra-low hydroxyl (OH) content. This minimizes absorption in the UV spectrum, making them ideal for UV spectroscopy and deep UV light delivery.
- Radiation-Resistant Fiber: Designed for use in harsh environments like nuclear reactors or space, these fibers are engineered to withstand high levels of radiation without significant degradation in their optical properties.
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