PS Class Micro Variable Optical Delay Line Single Mode 1064nm

Mini Variable Optical Delay Line

Mid-Infrared TDLAS N2O ppm-level Concentration Analysis System 4.56um

TDLAS (Tunable Diode Laser Absorption Spectroscopy) is a new gas detection method developed based on the combination of a diode laser and a long optical path absorption cell, utilizing the wavelength modulation of the laser through the characteristic absorption region of the measured gas. The semiconductor laser source used in TDLAS technology has a spectral width much smaller than the gas absorption line broadening, resulting in single-line absorption spectra, making TDLAS a high-resolution absorption spectroscopy technique. Nitrous oxide (N2O), also known as laughing gas, is an inorganic compound with the chemical formula N2O. It is a hazardous chemical, a colorless gas with a sweet odor, and acts as an oxidizing agent that can support combustion under certain conditions. However, it is stable at room temperature and has mild anesthetic effects, causing laughter in some cases. When nitrous oxide enters the bloodstream, it can lead to oxygen deprivation, and prolonged inhalation can result in high blood pressure, fainting, and even heart attacks. Long-term exposure to such gases can also cause anemia and damage to the central nervous system. Experimental Instruments: 4.56um High-Power Desktop DFB-QCL Quantum Cascade Laser 2-15um CdHg (MCT) Mid-Infrared Photodetector with Amplification and TEC Mid-Infrared 5-meter Optical Path Short-Wave Broadband Gas Cell

Multimode Fiber Chromatic Aberration Collimator 850nm (Beam Waist Spot Diameter 4mm)

It is composed of a group of large numerical aperture lens systems, suitable for multimode fibers with larger numerical apertures. This system can reshape the beam emitted from the multimode fiber, or couple a collimated beam into the multimode fiber, ensuring good collimation and beam shape over long distances.

Multimode Fiber Chromatic Aberration Collimator 780nm (Beam Waist Spot Diameter 4mm)

It is composed of a group of large numerical aperture lens systems, suitable for multimode fibers with larger numerical apertures. This system can reshape the beam emitted from the multimode fiber, or couple a collimated beam into the multimode fiber, ensuring good collimation and beam shape over long distances.

Multimode Fiber Chromatic Aberration Collimator 1550nm (Beam Waist Spot Diameter 4mm)

It is composed of a group of large numerical aperture lens systems, suitable for multimode fibers with larger numerical apertures. This system can reshape the beam emitted from the multimode fiber, or couple a collimated beam into the multimode fiber, ensuring good collimation and beam shape over long distances.

Multi-mode fiber achromatic collimator 1550nm (beam waist spot diameter 10mm)

It is composed of a group of large numerical aperture lens systems, and can use multimode optical fibers with large numerical apertures. It can shape the light beam emitted from the multimode optical fiber, and can also couple the spatial flat beam into the multimode optical fiber, so that the light beam has a good collimation effect and spot shape within a long distance.

Compact Wavelength Meter 450-950nm 1kHz Resolution 2pm

This is a highly accurate and very compact wavelength meter. The innovative internal design makes it faster, easier to operate and much smaller than competing products. The input light can be CW and quasi-CW lasers or incoherent light with a narrow spectrum. Wavelength data is available at 1kHz. Data rates are provided with no warm-up delay. Via USB, the cable is operated via a provided software interface or text-based commands. In addition, the wavelength information is available as a voltage on the analog output. Due to its extremely small size, it is very suitable as an OEM Components, for example for tunable lasers, as part of larger measurement equipment and in a wide range of other applications.

VIR-MIR-2000 Mid-infrared high-efficiency laser fluorescence induction card

This laser fluorescence induction card is small and easy to carry. The laser induction card is a standard size: 50X35mm, and the maximum power is 20W. It can display MIR laser beams, making up for the vacancy of 2um laser induction cards on the market, and provides convenience, safety, reliability and excellent performance for the commonly used 2um lasers in the optical path construction and experimental testing. The obvious beam can be observed on the induction card, which reduces the difficulty of finding the spot size and position of the invisible mid-infrared laser. The 2um high-efficiency laser induction card can sense lasers in the wavelength range of 1900-2100nm. The material of the induction card is a wear-resistant and high-temperature resistant ceramic material. The photosensitive area is coated on its front surface, which can easily locate the infrared light near the mid-infrared 2um and its focus. Moreover, our photosensitive card does not need to charge the photosensitive area. Even when detecting continuous light in the dark, the emission is stable and continuous, and the service life is long.

8.34um Benchtop High Power FP-QCL mid-infrared Quantum Cascade Laser 80mW (TDLAS integrated control module)

QCL8340FP-8.34um High Power Bench Top FP-QCL Mid-infrared quantum cascade laser is mid-infrared test laser developed by Idealphotonics in the first half of the year 2024. It has low atmospheric window loss, which is beneficial to space optical communication test research. Our bench top light source has high power and does not require ITAR review, making it an excellent choice for commercial mid-infrared test light sources. The tunable range exceeds 200nm, and the output power is greater than 80mW, which can meet the industrial needs of customer testing. Our laser has built-in Znse. The output is collimated and the output power is stable, and the temperature and wavelength stability are high , which is several orders of magnitude higher than the stability of traditional high-power quantum cascade lasers.

Pulsed EDFA Erbium Doped Fiber Amplifier Module 1550nm 20KHz

Pulsed EDFA Erbium-doped Fiber Amplifier Module 1550nm, repetition frequency; 20KHz, pulse width 200ns.

488nm 0.5W Micro variable optical high speed delay line - motor driver

The MDTD Series Variable Optical Time Delay features a highly stable moving stage with a novel backlash prevention mechanism and incorporates a proprietary optical encoder to provide sub-micron repeatability, long delay range, low loss, high speed, and compatibility with all wavelengths and all types of fiber, including SM, MM, and PM. It consists of two specially designed low-loss collimators through which light from the input fiber is projected into free space, reflected by a movable retroreflector, and collected by an output fiber collimator. Variable time delay is achieved by adjusting the distance the light travels in free space. A precision stepper motor with adjustable speed moves the retroreflector. Conveniently the device can be controlled via a computer using a USB cable interface, with graphical control software providing intuitive operation.

8.34um Benchtop High Power FP-QCL mid-infrared Quantum Cascade Laser 80mW ( Benchtop light source)

QCL8340FP-8.34um High Power Desktop FP-QCL Mid-infrared quantum cascade laser is mid-infrared test laser developed by Idealphotonics in the first half of the year 2024. It has low atmospheric window loss, which is beneficial to space optical communication test research. Our desktop light source has high power and does not require ITAR review, making it an excellent choice for commercial mid-infrared test light sources. The tunable range exceeds 200nm, and the output power is greater than 80mW, which can meet the industrial needs of customer testing. Our laser has built-in Znse. The output is collimated and the output power is stable, and the temperature and wavelength stability are high , which is several orders of magnitude higher than the stability of traditional high-power quantum cascade lasers.