InGaAs Large Area Photodetector, 800-1700nm (140MHz)

The InGaAs photodetector is a photodetector with a rated bandwidth and fixed gain, designed for detecting optical signals. The optical signal is input through the sensor surface, and the output is provided as a voltage via BNC. This product can measure optical signals in the wavelength range of 800nm to 1700nm. Detailed performance parameters are provided in the appendix table. Our photodetector housing includes mounting holes with a 1/4"-20 threaded pattern for easy installation and fixation. The housing also comes with two different sizes of threaded rings, suitable for both industrial and research applications, enabling easy adaptation to external optical components such as filters, attenuators, lenses, and FC fiber optic adapters. This product includes a plastic dust cover. For specific installation instructions, please refer to Chapter 3. Each photodetector is provided with a ±9V DC linear power supply, with an input rated voltage of 220VAC/50HZ

1310nm In-line Polarizer SMF-28E Fiber

Idealphotonics' in-line polarizer is designed to pass a specified polarized light and block other polarized light. Its function is to convert unpolarized light into linearly polarized light to achieve a high extinction rate. It is also used to improve the extinction rate of instruments such as precision measurement systems, fiber optic sensors, and high-speed test instruments. We have specially designed in-line polarizers for ring gyroscope systems, and its components have been tested under full temperature conditions. In addition, the mini size is very suitable for our cost-effective fiber optic gyroscope system.

1310nm In-line Polarizer PM1310 Fiber

Idealphotonics' in-line polarizer is designed to pass a specified polarized light and block other polarized light. Its function is to convert unpolarized light into linearly polarized light to achieve a high extinction rate. It is also used to improve the extinction rate of instruments such as precision measurement systems, fiber optic sensors, and high-speed test instruments. We have specially designed in-line polarizers for ring gyroscope systems, and its components have been tested under full temperature conditions. In addition, the mini size is very suitable for our cost-effective fiber optic gyroscope system.

1310nm Faraday Rotator Mirror 90 degrees

The fiber Faraday rotator is used to change the polarization state of the input light, so that the direction of the polarized light after passing through the Faraday rotator and the reflector rotates 90 degrees. It is perpendicular to the input polarized light and the polarization direction is opposite. The fiber Faraday rotator adopts a micro-optical structure inside, which is suitable for various optical fibers, and the input and output optical fibers can be selected in different ways. The fiber Faraday rotator is used to change the polarization state of the input light, so that the direction of the polarized light after passing through the Faraday rotator and the reflector rotates 90 degrees. It is perpendicular to the input polarized light and the polarization direction is opposite. The fiber Faraday rotator adopts a micro-optical structure inside, which is suitable for various optical fibers, and the input and output optical fibers can be selected in different ways.

1030nm ultrafast laser dedicated hollow core polarization-maintaining fiber jumper (with FC connector, customizable wavelength)

Hollow core fiber patch cables for ultrafast laser beam delivery. These polarization-maintaining fiber patch cables are ideal for nonlinear imaging optical coherence tomography (OCT), distortion-free ultrafast laser fiber delivery, sensors, and spectroscopy applications.

1064nm ultra-stable picosecond fiber laser

The 1064 nm ultra-stable picosecond fiber laser developed by Idealphotonics is an excellent seed source solution for industrial ultrafast laser processing applications. The laser has the typical advantages of traditional fiber lasers, namely small size (outer dimensions: 235×120×40 mm), no need for thermal management, and high output beam quality (single-mode output). The spectral center wavelength of the output pulse of this ultrafast laser is 1064 nm, the repetition frequency is optional at 20-30 MHz, the pulse width can be less than 10 ps, ​​the spectral width is <0.5 nm, and the Max. pulse energy is 3 nJ. Due to the use of special nonlinear technology to achieve the equivalent saturable absorber effect, the output pulse not only has high long-term stability, but also can withstand high and low temperature working environments of 0-45°.

10m optical path miniaturized gas chamber 1960-2400nm

The 10-meter optical input and electrical output gas absorption cell is used for various gas spectral analysis and detection. The optical path structure of the gas cell uses the self-patented design, the flat wave gas cell (SlimBoss Gas Cell) with excellent optical stability, and the auxiliary and high-stability optical packaging structure, which is mainly composed of the gas cavity, reflector, standard optical fiber connector, gas inlet and outlet, and shockproof base. The unique suspension optical path design has excellent vibration and temperature stability, can work stably in various complex environments, and is very suitable for online real-time detection of various gases. It has low system noise and can be applied to trace gas analysis..

1064nm benchtop with software control DFB laser 10mW

Idealphotonics' benchtop software-controlled DFB light source is based on an advanced microprocessor control system, combined with high-precision ATC and ACC (APC) control circuits to achieve high and stable 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 a one-key recovery function (Run/Stop button), which can effectively help customers return to the previous working state. This is a highly integrated modular system light source, which uses PC-side software intelligent control. Customers can set the required working temperature and current according to their needs. It is very suitable for experimental scientific research and production testing. In addition, we need to modulate the laser for some application fields. We have connected two modulation ports, one for high frequency and one for low frequency, to better meet customers' needs for multiple uses of one machine.

1030nm benchtop with software control DFB laser 10mW

Idealphotonics' benchtop software-controlled DFB light source is based on an advanced microprocessor control system, combined with high-precision ATC and ACC (APC) control circuits to achieve high and stable 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 a one-key recovery function (Run/Stop button), which can effectively help customers return to the previous working state.

980nm 1W Benchtop light source

Our Cobrite series 980nm high-stability single-mode pump light source uses a single-mode semiconductor laser with a 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, which can effectively prevent customers from misoperation. The power can be roughly adjusted (stepped by 50mw) or finely adjusted in steps of 0.1mw. Our Cobrite series 980nm single-mode pump light source is a high-stability pump light source designed for applications such as high-power fiber amplifiers and mode-locked fiber lasers. Since the ASE light generated by active optical fibers can easily damage the pump laser, our Laser provides targeted pump protection solutions to further improve the safety of the pump light source. Our Cobrite series 980nm single-mode pump light source is a highly functional desktop system light source with a high-definition LCD display, continuously adjustable output power, and synchronous display of current and voltage. It 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.

L-band SOA nonlinear semiconductor optical amplifier 1610nm 13dBm

The L-band SOA nonlinear semiconductor optical amplifier is a polarization-insensitive optical amplifier, featuring advanced epitaxial wafer growth and optoelectronic packaging technology. It provides high output saturation power, low noise figure, and large gain over a wide spectral bandwidth.

10 m Optical Path Ultra-Small Gas Absorption Cell Wavelength 1500-1700nm

The 10-meter optical path gas absorption cell is used for the spectral analysis and detection of various gases. The optical path structure of the gas chamber features an independently patented design with excellent optical stability, utilizing a flat-wave gas chamber (SlimBoss Gas Cell). It is equipped with a highly stable optical packaging structure, primarily composed of the gas chamber body, mirrors, standard fiber optic connectors, gas inlet and outlet, and a vibration-damping base. The unique suspended optical path design ensures outstanding vibration and temperature stability, enabling it to work reliably in various complex environments. This makes it highly suitable for real-time online detection of various gases. The system has low noise and is ideal for trace gas analysis.