Product Details
Place of Origin: China
Brand Name: ZMSH
Payment & Shipping Terms
Delivery Time: 2-4weeks
Payment Terms: T/T
Diameter: |
25-500 Um |
Length: |
Standard Length 1m, Maximum 30m |
Melting Point: |
2072°C |
Tensile Strength: |
Greater Than 2200 MPa |
Transmittance:: |
>80% (400-3000 Nm) |
Loss: |
<10 DB (m, 300 Um) |
Fiber Orientation: |
A-axis, C-axis |
Thermal Conductivity: |
~22 W/m/K |
Doping Ions: |
Cr³⁺, Mn²⁺, Etc. (customizable) |
Diameter: |
25-500 Um |
Length: |
Standard Length 1m, Maximum 30m |
Melting Point: |
2072°C |
Tensile Strength: |
Greater Than 2200 MPa |
Transmittance:: |
>80% (400-3000 Nm) |
Loss: |
<10 DB (m, 300 Um) |
Fiber Orientation: |
A-axis, C-axis |
Thermal Conductivity: |
~22 W/m/K |
Doping Ions: |
Cr³⁺, Mn²⁺, Etc. (customizable) |
YAG Fiber Optic Dia 25-500um length1m-30m orientation a-axis c-axis for fiber optic sensor
YAG optical fiber Abstract:
Our customizable YAG Optical Fiber, made from premium Yttrium Aluminum Garnet (YAG) material, is designed to meet the requirements of high-performance optical systems. With a transmittance of over 80% across a broad spectral range from 400 nm to 3000 nm, this fiber is ideally suited for applications that demand precision and reliability in the transmission of light or energy. With diameters ranging from 25 μm to 500 μm, the fiber can be customized for use in various optical systems, including high-temperature sensors, tunable lasers, and advanced communication systems. The exceptional physical and optical properties of the YAG fiber make it a superior choice for industries that rely on the highest standards of performance.
YAG optical fiber Properties:
This YAG Optical Fiber is engineered for a broad range of demanding applications, thanks to its superior material properties. The following highlights some of the key characteristics:
Transmittance: The YAG fiber exhibits a high transmittance of greater than 80% across the range of 400 nm to 3000 nm. This ensures minimal signal loss during transmission, allowing for highly efficient light propagation. This characteristic is critical in systems where optical clarity and energy efficiency are paramount.
Diameter: Available in diameters from 25 μm to 500 μm, the YAG Optical Fiber can be used in applications ranging from delicate, compact systems to high-power lasers requiring larger fibers. Custom diameters can be produced based on specific requirements, ensuring that the fiber fits perfectly into specialized setups.
Melting Point: The YAG fiber has an exceptionally high melting point of 2130°C, making it capable of withstanding extreme temperatures. This makes it ideal for applications in high-temperature environments, such as furnace monitoring, aerospace sensors, and energy production systems, where traditional materials would fail.
Thermal Conductivity: With a thermal conductivity of ~22 W/m/K, the YAG fiber is efficient in dissipating heat, which is important in high-power applications where heat build-up can damage optical components. This feature allows for the continued operation of systems under high-energy conditions without overheating.
Doping Ions: The YAG fiber can be doped with various ions, such as Cr³⁺ and Mn²⁺, to tailor its optical properties for specific applications. These dopants can alter the fiber’s emission and absorption characteristics, making it adaptable for use in tunable laser systems, where precise control over wavelength is required.
Fiber Orientation: The YAG fiber is available in different crystallographic orientations, including <111>, <110>, and <100>, allowing for the optimization of its performance based on the specific light propagation and interaction needs of the application.
Refractive Index: With a refractive index of approximately 1.7 at λ=1.55 μm, the YAG fiber ensures efficient light transmission with minimal loss. This refractive index is well-suited for high-precision optical systems and applications that demand minimal signal degradation over long distances.
| Parameter | Fiber 1 | Fiber 2 |
|---|---|---|
| Diameter | 100-500 μm | 25-500 μm |
| Length | Standard 30 cm, Max 1 m | Standard 1 m, Max 30 m |
| Melting Point | 2130°C | 2072°C |
| Thermal Conductivity | ~22 W/m·K | N/A |
| Transmittance | >80% (400-3000 nm) | >80% (400-3000 nm) |
| Doping Ions | Cr³⁺, Mn²⁺ (Customizable) | N/A |
| Fiber Orientation | <111>, <110>, <100 | a-axis, c-axis |
| Refractive Index | ~1.7 @ λ=1.55 μm | N/A |
| Tensile Strength | N/A | >2200 MPa |
| Loss | N/A | <10 dB (m, 300 μm) |
| Femtosecond Grating | N/A | Customizable |
| Applications | High-temperature sensing, Tunable laser | Fiber sensors, Fiber gratings, Optical power transmission, etc. |
YAG optical fiber Applications:
The YAG Optical Fiber is widely used across several industries due to its high performance and versatility. Some of the most common applications include:
High-Temperature Sensing: The YAG fiber’s ability to withstand extreme temperatures makes it ideal for monitoring high-temperature environments in industries such as aerospace, industrial manufacturing, and energy production. It is used to gather accurate data in environments where other sensors would fail due to heat.
Tunable Lasers: Tunable laser systems are essential in applications such as spectroscopy, laser scanning, and telecommunications. The YAG Optical Fiber, with its customizable doping and refractive properties, is an ideal choice for these systems. Its high optical performance ensures that the laser output is stable and precise.
Fiber-Optic Communications: The YAG fiber’s high transmittance and low loss make it a reliable solution for fiber-optic communication systems, including data transmission over long distances. Its ability to maintain signal integrity is crucial in high-speed communication networks.
Scientific Research: In scientific research, particularly in optical sensing, spectroscopy, and laser applications, the YAG optical fiber is used for its ability to withstand high temperatures and provide stable, accurate light transmission. Its customizable nature makes it a highly flexible tool for experimental setups.
