If highly precise dot indication is in serious need for those of night version illumination fields, not able to rely on a simple laser pointer or other manual dot projecting tool, it makes a good job to apply a long wavelength made device, such as a 808nm infrared laser diode module. Employed by an import 808nm infrared laser diode and a qualified optic lens inside a durable metal housing tube, only if it gets constant electric power source supply and basic equipped heat dissipation design, it enables high energy density infrared laser light source generation, and converts into increasing accuracy and brightness infrared laser dot projection at different work distances conveniently. When 808nm infrared dot laser is cooperated with night version device, after its proper integration into night version experimental device or equipment, it enables easy reaching, long term lasted and good direction infrared dot indication continuously.
Usually 808nm infrared laser diode module applies an external AC/DC adapter, not spending extra time on alkaline battery power change, it not only gets larger space leaving for tube cooling down, but also achieves increasing brightness and stability infrared reference dot projection as long as 10 hours per day. Owing to its invisible IR laser light emission, this accessory part is always working together with night version device, involving IR laser camera, black and white camera or CCD camera etc. 808nm infrared dot laser alignment maintains small output wavelength fluctuation range, ensuring consistency of experimental conditions and avoids the impact of wavelength drift on the accuracy of experimental data.
Available with an import 808nm infrared laser diode within 5mW to 1000mW and metal heat sink cooling system inside a high duration anodized aluminum alloy housing tube, 808nm infrared laser diode module also gets special use of adjustable focus optic lens. It enables freely adjusted laser beam focus, thus powerful IR laser light is converted into an increasing accuracy and brightness infrared dot projection at a longer distance. It can be adapted to the diverse laser energy requirements of different scientific experiments. Featured by good uniformity and a small divergence angle, the generated high precision beam focusing meets the positioning and illumination requirements of microscopic experiments. Whenever infrared dot laser alignment is interfacing with various scientific research equipment such as spectrometers, microscopes, and fiber optic couplers, it is adapting to the setup needs of different experimental platforms.
Applications in scientific research fields:
1. Fluorescence Excitation and Spectroscopic Analysis: As a commonly used infrared excitation source in laboratories, 808nm infrared laser diode module is used to excite fluorescence signals in specific materials, enabling qualitative and quantitative analysis of material composition and molecular structure in conjunction with a spectrometer.
2. Optical Experiments and Optical Communication Research: Used for performance testing of infrared optical systems, such as lens transmittance and fiber optic transmission loss detection. It can also serve as a signal emission source for short-range optical communication experiments.
3. Basic Biomedical Research: In cell imaging and tissue optical property research, 808nm infrared alignment laser projects infrared spots to observe the absorption and scattering patterns of near-infrared light in biological tissues, providing data support for the development of new medical devices.
