Single-mode transmission fiber

Single Mode Fiber, SMF refers to an optical fiber that supports only one transmission transverse mode at a specific wavelength (can tolerate two degenerate polarization modes). Single-mode optical fiber usually has a core on the order of 10 microns, and the refractive index difference between the core and cladding is very small (<1%). Since single-mode optical fiber has the characteristics of long single-mode transmission distance, large transmission bandwidth, low transmission loss, no inter-mode dispersion, and strong reliability, it can be used in outdoor long-distance data transmission, optical fiber communication, optical fiber sensing and other fields. SM450 optical fiber has very low splicing loss when spliced with couplers, and is suitable for device connector production and manufacturing.

1550/2000nm single mode fiber wavelength division multiplexer

Idealphotonics' tapered wavelength division multiplexing products for optical communications have 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, fiber optic sensing systems, and fiber optic optical detection equipment.

1540 nm Polarization-mode bandpass fiber filter (FC/APC)

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.

1540 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.

1550nm High Power PM Fiber Laser 10W

With optimized optical characteristics, the 1550nm single-mode DFB laser has become the ideal choice for high-demand sensor system applications. The innovative chip design suppresses higher-order longitudinal and transverse modes while maintaining linear polarization stability. The laser offers high output power (up to 50W), narrow linewidth, and excellent consistency, making it highly favored by domestic research customers. Currently, we have stock covering wavelengths from 1000nm to 2400nm. For certain specific customer applications, we can provide custom chip selection services.

1550nm high peak power pulse laser spectrum width 15nm 25W

Idealphotonics' pulsed semiconductor lasers are high brightness CVLL 1550nm pulsed laser diodes with up to 75W output power. CVLL devices are well suited for most range finding applications requiring "eye safe" operation.

1550nm high peak power pulsed fiber laser (solid-state laser Lidar emission source)

Idealphotonics’ develops an eye-safe high peak power pulse light source. The product has high electro-optical conversion efficiency, small nonlinear effect and ASE, and a wide operating temperature range. This product is suitable as a solid-state laser Lidar emission light source.

1520 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.

1520 nm Polarization-mode bandpass fiber filter (FC/APC)

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 Single-Mode Single-Stage Fiber Isolator Mini

IdealPhotonics‘ optical isolator products maintain excellent back-reflection isolation performance under any polarization state. They feature low insertion loss, high isolation, high return loss, low polarization-dependent loss (PDL), low polarization mode dispersion (PMD), a wide operating wavelength and temperature range, and an epoxy-free optical path. These characteristics make them a cost-effective solution for communication networks. This series of products is suitable for erbium-doped amplifiers, wavelength division multiplexing (WDM) systems, fiber optic equipment, and lasers.

1480nm High-Power Benchtop Single-Mode Pump Source 600mW

Idealphotonics' 1480nm high-stability single-mode pump source uses a single-mode semiconductor laser with an FBG wavelength-stabilizing grating, offering wavelength stability and high output power. Based on an advanced microprocessor control system combined with high-precision ATC and ACC (APC) control circuits, it achieves highly stable laser output while ensuring quick and intuitive operation. We can also provide corresponding communication interfaces and control software based on user requirements for computer control. This light source features a Turn-Key pump laser protection function to effectively prevent user errors. It supports coarse power adjustment (50mW steps) and fine power adjustment (0.1mW steps). Idealphotonics' 1480nm single-mode pump source is a highly integrated desktop system light source equipped with a high-definition LCD display, continuously adjustable output power, and simultaneous display of current and voltage, making it ideal for experimental scientific research and production testing. The company can also provide modular packaging based on user needs for easy system integration.

1480nm High-Power Benchtop Single-Mode Pump Source 500mW

IdealPhotonics' 1480nm high-stability single-mode pump light source uses a single-mode semiconductor laser with an FBG wavelength-stabilized grating, which has a stable wavelength and high output power. The control system based on advanced microprocessors, combined with high-precision ATC and ACC (APC) control circuits, achieves high-stability output of the laser, while ensuring that the light source is quick and intuitive to operate. We can also provide corresponding communication interfaces and control software according to user requirements to achieve computer control. This light source uses the Turn-Key pump laser protection function to effectively prevent customers from operating it incorrectly. The power can be roughly adjusted (stepped by 50mW) or finely adjusted by 0.1mW. IdealPhotonics' 1480nm single-mode pump light source is a highly integrated desktop system light source with a high-definition LCD display, continuously adjustable output power, and synchronous display of current and voltage, which is very suitable for experimental scientific research and production testing. In addition, the company can also provide modular packaging according to user requirements to facilitate system integration.