1064nm SM Attenuator

The adjustable attenuator is based on IdealPhotonics' unique optical design and processing capabilities. Our VOA features fast optical attenuation adjustment, compact size, low insertion loss, low polarization-dependent loss, high mode stability, and high reliability. It is mainly used in multimode transmission networks, power balancing, product testing, and related instruments and equipment.

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1064nm PM Attenuator

The adjustable attenuator is based on IdealPhotonics' unique optical design and processing capabilities. Our VOA features fast optical attenuation adjustment, compact size, low insertion loss, low polarization-dependent loss, high mode stability, and high reliability. It is mainly used in multimode transmission networks, power balancing, product testing, and related instruments and equipment.

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4.6um low power benchtop DFB-QCL mid-infrared quantum cascade laser 20mW (TDLAS integrated control module)

MP-TDLAS-MIR-QCL-W4600-1-DFB-020 low-power benchtop DFB-QCL mid-infrared quantum cascade laser is a domestically advanced ultra-low-power QCL DFB laser developed by Idealphotonics in the first half of 2018. The tunable range exceeds 100nm, and the output power is greater than 20mw to meet the industrial needs of customers testing gas sensors. Our laser collimated output has stable output power and high temperature and wavelength stability, which is several orders of magnitude higher than the stability of traditional high-power quantum cascade lasers. It provides an excellent test light source for our mid-infrared test customers.

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1064nm Polarization Maintaining Fiber Splitter

The 1064nm fused fiber polarization beam combiner/splitter is used to couple two orthogonal polarized light beams into a single optical fiber or to split one input light into two orthogonal linear polarized output beams. These devices operate entirely through optical fibers; the polarization state is combined or separated through the fused fiber node. Compared to polarization beam combiners based on calcite prisms, this all-fiber construction achieves higher transmission rates and can withstand higher power. Since the polarization-maintaining fiber in the fused fiber polarization beam combiner is not used as a polarizer, the input light must be linearly polarized and aligned with the fast axis and/or slow axis of the optical fiber. These devices are ideal for coupling light from two pump lasers into a single fiber to enhance the input light for erbium-doped or Raman fiber amplifiers.

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1064nm High Power SM Fiber Laser 10W

With optimized optical characteristics, the 1064nm single-mode DFB has become an ideal choice for high-demand sensing system applications. The innovative chip design has suppressed higher-order longitudinal and transverse modes, while maintaining linear polarization stability. The laser features high output power (up to 50W), narrow linewidth, and good consistency, making it highly favored by domestic research customers. Currently, we have stock covering wavelengths from 1000nm to 2400nm, and for certain specific customer applications, we can provide customized chip selection services.

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1064nm High Power PM Fiber Laser 2W

With optimized optical characteristics, the 1064nm single-mode DFB has become an ideal choice for high-demand sensing system applications. The innovative chip design has suppressed higher-order longitudinal and transverse modes, while maintaining linear polarization stability. The laser features high output power (up to 50W), narrow linewidth, and good consistency, making it highly favored by domestic research customers. Currently, we have stock covering wavelengths from 1000nm to 2400nm, and for certain specific customer applications, we can provide customized chip selection services.

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1030nm Wideband Bandpass Optical Fiber Filter (Passband 2nm @ -0.5dB, 1-meter Tail Fiber HI1060 Fiber)

Idealphotonics' fiber optic filters use special fiber structures to select or filter out specific wavelengths of light from different light waves. We offer different power versions of filter devices based on customer needs. These can be used in areas such as dense wavelength division multiplexing (DWDM) fiber optic communications, frequency division multiplexing (FDM) fiber optic communications, spectral testing, fiber optic sensors, fiber lasers, and fiber amplifiers. For custom center wavelengths, operating temperatures, or specific working bandwidths, please contact us for customization.

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1064nm High Power PM Fiber Laser 10W

With optimized optical characteristics, the 1064nm single-mode DFB has become an ideal choice for high-demand sensing system applications. The innovative chip design has suppressed higher-order longitudinal and transverse modes, while maintaining linear polarization stability. The laser features high output power (up to 50W), narrow linewidth, and good consistency, making it highly favored by domestic research customers. Currently, we have stock covering wavelengths from 1000nm to 2400nm, and for certain specific customer applications, we can provide customized chip selection services.

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1030nm Wideband Passband Fiber Optic Filter (Passband 2nm @ -0.5dB, 1-meter pigtail HI1060 fiber, without connector)

Idealphotonics' fiber optic filters use special fiber structures to select or filter out specific wavelengths of light from different light waves. We offer different power versions of filter devices based on customer needs. These can be used in areas such as dense wavelength division multiplexing (DWDM) fiber optic communications, frequency division multiplexing (FDM) fiber optic communications, spectral testing, fiber optic sensors, fiber lasers, and fiber amplifiers. For custom center wavelengths, operating temperatures, or specific working bandwidths, please contact us for customization.

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4.43μm High-Power Desktop DFB-QCL Mid-Infrared Quantum Cascade Laser 100mW (TDLAS Integrated Control Module

4.43um High-Power Desktop DFB-QCL Mid-Infrared Quantum Cascade Laser is a mid-infrared testing laser developed by Idealphotonics in the first half of 2019. The low-loss atmospheric window is beneficial for space optical communication testing research. Our desktop light source has high output power and does not require ITAR review, making it the preferred choice for commercial mid-infrared testing light sources. With a tunable range exceeding 100nm and an output power greater than 100mW, it meets the industrial testing needs of our customers. The laser features built-in ZnSe collimated output, ensuring stable output power with extremely high temperature and wavelength stability, surpassing the stability of traditional high-power quantum cascade lasers by several orders of magnitude.

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633nm All-Fiber Polarization Controller (Strain Type)

The OZ Optics Polarization Controller allows users to convert any input polarization state into any desired output polarization state. The device combines compact size, ease of use with standard volume optical systems, and offers low cost, low loss, and low backreflection. The polarization controller works by applying pressure through an adjustable clamp. The pressure applied to the fiber induces birefringence in the core of the fiber, causing the fiber to act as a quarter-wave plate. Changing the pressure alters the delay between the fast and slow polarization components. Since the clamp is rotatable, the direction of the applied stress can be changed. This enables the achievement of any output polarization. The process is simple and quick, and output polarization exceeding 30 dB can typically be achieved in seconds.

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633nm Picosecond Tunable Fiber Delay Coil

It takes attention, precision and skill to make the HPSDTDC-633's hand-made compact and low-loss fiber coils. Our F-TDC compact time delay coils feature a proprietary manufacturing process that provides extremely low insertion loss while meeting your budget and small space requirements.

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