InGaAs Ultra-Low Noise Balanced Detector UBD-400M-A

The UBD series ultra-low noise balanced detection modules are upgraded products based on the previous MBD series. Compared to the original MBD series, the background noise is significantly reduced under the same conditions. With the same bandwidth and gain, the background noise of the UBD series is approximately one-third of that of the MBD series modules, resulting in higher sensitivity and better signal-to-noise ratio.

InGaAs Ultra-Low Noise Balanced Detector UBD-300M-A

The UBD series ultra-low noise balanced detection modules are upgraded products based on the previous MBD series. Compared to the original MBD series, the background noise is significantly reduced under the same conditions. With the same bandwidth and gain, the background noise of the UBD series is approximately one-third of that of the MBD series modules, resulting in higher sensitivity and better signal-to-noise ratio.

4.6um High Power Benchtop FP-QCL Mid-Infrared Quantum Cascade Laser 400mW (Benchtop Light Source)

The QCL4600FP-4.6um high-power desktop FP-QCL mid-infrared quantum cascade laser is a mid-infrared testing laser developed by Idealphotonics in the first half of 2019. Its low-loss atmospheric window is beneficial for space optical communication testing and research. Our desktop light source offers high power and does not require ITAR certification, making it an excellent choice for commercial mid-infrared testing light sources. With a tunable range of over 200nm and an output power of more than 400mW, it meets industrial testing needs. The laser incorporates a ZnSe collimation output, providing stable output power and high temperature-wavelength stability, far surpassing the stability of traditional high-power quantum cascade lasers by several orders of magnitude

1480/1550nm polarization-preserving WDM FC/APC

The tapered wavelength division multiplexing product for optical communication has the advantages of low loss, low polarization-dependent loss, wide operating band and operating temperature range, and no glue in the optical path. This series of products can be used in wavelength division multiplexing systems, optical fiber sensing systems, and optical fiber optical detection equipment.

1310nm 50/125um multimode fiber coupler

NIR-MFC -LMA series large core fiber couplers are developed and produced based on our fiber fusion taper machine IPCS-5000-LMA. They are used for visible light band splitting. They have excellent performance. Unlike multimode fibers (50/125, 62.5/125) widely used in fiber optic communication systems, large core fibers are usually used to transmit larger laser powers and special working bands. At the same time, due to the large core diameter and high numerical aperture of the fiber, the uniformity and stability of large core fiber splitting are affected by many factors (such as laser mode, laser injection method, etc.). With many years of accumulation of high-energy laser transmission experimental foundation and research on the reliability of military devices, we can provide fiber splitters with core diameters of 125um to 1500um, as well as large core fiber splitters working at all wavelengths. The products have extremely high resistance to high-power laser shock and high environmental reliability.

1053 nm wide passband bandpass fiber filter (passband 2nm@-0.5dB 1m Pigtail Hi 1060 fiber, no connector) NIR-BPF-W1053-B02-P1-1-B-SN

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.

Small O-band MEMS tunable optical filter 1290-1320nm

MEMS tunable filters are based on the principles of MEMS (micro-electromechanical systems) technology and grating technology. They have the characteristics of small size, fast speed, long life, high stability and reliability, and can cover the O-band, C-band or L-band wavelength range. Device scanning range reaches 80nm

Small L-band MEMS tunable optical filter 1575-1610nm

MEMS tunable filters are based on the principles of MEMS (micro-electromechanical systems) technology and grating technology. They have the characteristics of small size, fast speed, long life, high stability and reliability, and can cover the O-band, C-band or L-band wavelength range. Device scanning range reaches 80nm

Small C-band MEMS tunable optical filter 1528-1565nm

MEMS tunable filters are based on the principles of MEMS (micro-electromechanical systems) technology and grating technology. They have the characteristics of small size, fast speed, long life, high stability and reliability, and can cover the O-band, C-band or L-band wavelength range. Device scanning range reaches 80nm

Mark-Type Thermally Stable Standard 1525-1565nm

The Mark-ID Thermally Stable Photonic Filter from Xiaoxiao Photonics is based on advanced ETALON technology , incorporating unique optical and mechanical designs , along with advanced packaging technology. This ensures the stability of the filter's wavelength under extreme environmental conditions , including temperature and humidity . With our unique patented technology , the filter guarantees the wavelength's target accuracy within ITU +/- 1.25 GHz , and is available in selectable options . This ITU-aligned filter can be used for channel monitoring and wavelength locking in Wavelength Division Multiplexing (WDM) systems . We also offer special technology options for customers to choose specific wavelength accuracy . This thermally stable filter module can lock one or more consecutive adjacent wavelength peaks , forming a fixed wavelength marker . This wavelength marker helps client scanning systems determine their specific position within a wavelength range . The unique design of this filter ensures the precision of the standard , channel spacing , and operational wavelength , with a wide selection range . The thermally stable filter, designed for customer use , is highly compatible with various spectral applications , including telecom , wavelength reference and calibration , fiber optic sensing systems , testing and measurement , and laser wavelength stability control .

3.39um Low-Power Benchtop ICL-DFB Tunable Continuous-Wave Laser (Benchtop Light Source)

The 3.39um ICL-DFB laser is a tunable continuous-wave laser developed by Idealphotonics. It features a narrow linewidth, high power, and low power consumption, making it ideal for gas sensing applications, particularly for testing hydrocarbons and other related gases. The benchtop ICL-DFB laser module integrates a driver and temperature control module, and it allows software control of the laser's temperature and operating current, ensuring stable operation and maintaining measurement accuracy. Additionally, the laser module includes an FPGA, facilitating the processing of gas concentration measurements.

3.45um Low Power Benchtop ICL-DFB Tunable Continuous Wave Laser (Benchtop Light Source) 5mW

The 3.45um ICL-DFB Laser is a tunable continuous wave laser developed by Idealphotonics 。 It features a narrow linewidth, high power, and low power consumption, making it ideal for gas sensing applications, especially for testing hydrocarbons and other related gases. The desktop ICL-DFB laser module integrates a driver and temperature control module. It also supports software control for tuning the temperature and operating current of the laser, ensuring stable operation and maintaining measurement accuracy. Additionally, the laser module incorporates an FPGA, which facilitates the processing of gas concentration measurements.