6.14um high power bench top DFB-QCL mid-infrared quantum cascade laser 100mW (benchtop light source)

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

View Now

InGaAs ultra-low noise balance detector 1G

The UBD series ultra-low noise balanced detector module 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.

View Now

633nm 2x3 PM Coupler Module (Customized Product)

Ideal customized products

View Now

632nm Full Bandwidth Free-Space Acousto-Optic Modulator 100MHz

The Idealphotonics’ acousto-optic modulator allows users to adjust the output light's amplitude, duration, and frequency/period. The insertion loss can be as low as 2 dB, the extinction ratio can be as high as 50 dB, the rise time can be as fast as 5 nanoseconds, and the frequency can reach up to several hundred MHz. Applications include switching, pulse picking, fast attenuation, and more. The wavelength range extends from near ultraviolet to near infrared.

View Now

Single-mode optical fiber achromatic collimator 635nm (beam waist spot diameter 0.87mm FC/PC)

Composed of a large numerical aperture lens system, it can use multimode optical fibers with larger numerical apertures. The beam emitted from the multimode fiber can be shaped, or the spatial plane beam can be coupled into the multimode fiber to achieve good collimation and spot shape over long distances.

View Now

Single mode optical fiber achromatic collimator 520nm (beam waist spot diameter 0.92mm)

Composed of a large numerical aperture lens system, it can use multimode optical fibers with larger numerical apertures. The beam emitted from the multimode fiber can be shaped, or the spatial plane beam can be coupled into the multimode fiber to achieve good collimation and spot shape over long distances.

View Now

Single mode optical fiber achromatic collimator 405nm (beam waist spot diameter 0.97mm)

Composed of a large numerical aperture lens system, it can use multimode optical fibers with larger numerical apertures. The beam emitted from the multimode fiber can be shaped, or the spatial plane beam can be coupled into the multimode fiber to achieve good collimation and spot shape over long distances.

View Now

400-1100nm Si Avalanche Balanced Detector 2GHz

The Si Avalanche Balanced Detection Module integrates a low-noise APD detector, a low-noise broadband transimpedance amplifier, ultra-low noise isolated power supply, high-voltage power supply, and APD temperature compensation. The isolated power supply ensures that the output signal is not affected by external power supplies. APD temperature compensation enhances the stability of the detector module.

View Now

Single mode fiber achromatic collimator 1064nm (beam waist spot diameter 2mm FC/APC)

Composed of a large numerical aperture lens system, it can use multimode optical fibers with larger numerical apertures. The beam emitted from the multimode fiber can be shaped, or the spatial plane beam can be coupled into the multimode fiber to achieve good collimation and spot shape over long distances.

View Now

2mm spot width wide spectrum fiber collimator 450nm-20um FC/APC

It uses a 90° off-axis parabolic mirror, which maintains a constant focal length across a wide wavelength range. This makes it an optimal choice for collimating broadband wavelengths of light when the focus is accurately adjusted. The lens surface is coated with a silver film for the wavelength range from 450nm to 2000nm, enhancing the output efficiency. This collimator is available with optional FC/PC, FC/APC, or SMA connector

View Now

Single mode fiber achromatic collimator 1310nm (beam waist spot diameter 2mm FC/APC)

Composed of a large numerical aperture lens system, it can use multimode optical fibers with larger numerical apertures. The beam emitted from the multimode fiber can be shaped, or the spatial plane beam can be coupled into the multimode fiber to achieve good collimation and spot shape over long distances.

View Now

Single mode optical fiber achromatic collimator 1550nm (beam waist spot diameter 2mm)

Composed of a large numerical aperture lens system, it can use multimode optical fibers with larger numerical apertures. The beam emitted from the multimode fiber can be shaped, or the spatial plane beam can be coupled into the multimode fiber to achieve good collimation and spot shape over long distances.

View Now