900-2600nm InGaAs Bias Photodetector, Active Area Size Φ0.5mm, Rise Time 17ns

IdealPhotonics' InGaAs bias photodetector has a photosensitive range from 500nm to 2600nm, with extremely low noise, fast response, no gain, and low cost. It is suitable for conventional photodetector applications, offering excellent performance and high cost-performance ratio. Technical support is available across various domains, commonly used in visible and infrared light measurements

900-2600nm InGaAs Bias Photodetector, Photosensitive Area Φ1.0mm, Rise Time 25ns

IdealPhotonics' InGaAs bias photodetector has a photosensitive range from 500nm to 2600nm, with extremely low noise, fast response, no gain, and low cost. It is suitable for conventional photodetector applications, offering excellent performance and high cost-performance ratio. Technical support is available across various domains, commonly used in visible and infrared light measurements

780nm FC/APC Fixed Fiber Collimator NA 0.37 Focal Length 10.1mm

Idealphotonics' fiber collimators are pre-aligned to collimate light from FC/APC connector fibers and have diffraction-limited performance. These fiber collimators have no moving parts, are compact, and can be easily integrated into existing devices. Because aspheric lenses produce chromatic aberration, the effective focal length (EFL) is wavelength-dependent. The design wavelength is the wavelength corresponding to the ideal beam divergence angle. Some collimators at the design wavelength have different collimated beam diameters. When connected to specific single-mode fiber jumpers, they can collimate light at the design wavelength. In addition, the aspheric lenses are anti-reflection coated on both sides to minimize surface reflections (see the AR Coating Curves tab). For some applications, the collimators can also be used for other wavelengths within the AR coating wavelength range. Please refer to the theoretical divergence angle curves of each collimator to determine whether it is suitable for your application. These collimators have a stable operating range from -40°C to 93°C. Please note that these collimators cannot be used in a vacuum. If you need a custom alignment wavelength, operating temperature, or vacuum compatibility, please contact us for customizatio

1580 nm Polarization-mode bandpass fiber filter (no connector)

Idealphotonics' fiber filters use a special fiber structure to select or filter out specific wavelengths of light from different wavelengths. We can provide filter devices with different optical power versions according to user needs, which can be used in dense wavelength division multiplexing fiber communications, frequency division multiplexing fiber communications, spectrum testing, fiber sensors, fiber lasers and fiber amplifiers. If you need to customize the center wavelength, operating temperature or specific working bandwidth, please contact us for customization.

900-1700nm InGaAs Bias Photodetector Active Area Size Φ1.0mm Rise Time10ns

The InGaAs bias photodetector from IdealPhotonics has a light-sensitive range covering from 500nm to 2600nm. It features extremely low noise, fast response, no gain, and low cost. This detector is suitable for conventional photodetection applications and offers excellent performance and high cost-performance ratio. It also provides comprehensive technical support and is commonly used in visible and infrared light measurements

1550nm single mode bandpass fiber filter 3dB passband 20nm without connector

Idealphotonics' fiber filters use a special fiber structure to select or filter out specific wavelengths of light from different wavelengths. We can provide filter devices with different optical power versions according to user needs, which can be used in dense wavelength division multiplexing fiber communications, frequency division multiplexing fiber communications, spectrum testing, fiber sensors, fiber lasers and fiber amplifiers. If you need to customize the center wavelength, operating temperature or specific working bandwidth, please contact us for customization.

800-1700nm Indium Gallium Arsenide Bias Photodetector, Sensitive Area Size Φ2.0mm, Rise Time 30ns

IdealPhotonics' indium gallium arsenide (InGaAs) bias photodetector has a spectral sensitivity range from 500nm to 2600nm, with extremely low noise, fast response, no gain, and low cost. It is suitable for general photodetection applications, offering excellent performance and high cost-effectiveness. The product provides comprehensive technical support and is commonly used in visible and infrared light measurements

1550nm Transmissive Fiber Filter

Idealphotonics' fiber filters use a special fiber structure to select or filter out specific wavelengths of light from different wavelengths. We can provide filter devices with different optical power versions according to user needs, which can be used in dense wavelength division multiplexing fiber communications, frequency division multiplexing fiber communications, spectrum testing, fiber sensors, fiber lasers and fiber amplifiers. If you need to customize the center wavelength, operating temperature or specific working bandwidth, please contact us for customization.

1550nm Fiber Mode Field Matcher/MFA Mode Matcher (FC/APC)

MFA mode field matcher (mode matcher) is a special process used to reduce the loss when optical fibers with different mode field diameters and numerical apertures are fused together. It can make the fundamental mode signal obtain the maximum transmittance at the melting point. The transmission direction from the small mode field to the large mode field is the forward direction, and vice versa. The MFA produced by Idealphotonics uses mode optimization technology to obtain high transmission efficiency and low beam degradation. Mode matchers are often used in high-power fiber lasers and fiber amplifiers.

1550nm Fiber Mode Field Matcher/MFA Mode Matcher (FC/APC Pigtail length 0.5m)

MFA mode field matcher (mode matcher) is a special process used to reduce the loss when optical fibers with different mode field diameters and numerical apertures are fused together. It can make the fundamental mode signal obtain the maximum transmittance at the melting point. The transmission direction from the small mode field to the large mode field is the forward direction, and vice versa. The MFA produced by Idealphotonics uses mode optimization technology to obtain high transmission efficiency and low beam degradation. Mode matchers are often used in high-power fiber lasers and fiber amplifiers.

Super Long-Distance Collimating Lens 525nm (2KM Focal Length 250mm SMA905)

The optical fiber output is collimated and reshaped into a large spot, suitable for high-power, long-distance transmission, and pulsed output lasers. Within the operating range, the light exhibits excellent collimation, with a uniform energy distribution and sharp, clear edges. The design adopts a multi-lens series with air gaps, compatible with single-mode, multi-mode, and large-core optical fibers, enabling functions such as remote sensing, illumination, and interference.

1550nm Fiber Mode Field Matcher/MFA Mode Matcher (Bare fiber, no connector)

MFA mode field matcher (mode matcher) is a special process used to reduce the loss when optical fibers with different mode field diameters and numerical apertures are fused together. It can make the fundamental mode signal obtain the maximum transmittance at the melting point. The transmission direction from the small mode field to the large mode field is the forward direction, and vice versa. The MFA produced by Idealphotonics uses mode optimization technology to obtain high transmission efficiency and low beam degradation. Mode matchers are often used in high-power fiber lasers and fiber amplifiers.