Photonics Innovations High Power Lasers, AOTFs, Reflectometers & Quantum Ready Components

Описание: Photonics Innovations High Power Lasers, AOTFs, Reflectometers & Quantum Ready Components

Del Mar Photonics, Inc. is a leading manufacturer and system integrator of advanced photonics products for scientific and industrial applications. We offer a comprehensive range of lasers, optics, optical crystals, and related instrumentation to support cutting-edge research and development.
We welcome opportunities to collaborate with researchers and instrumentation developers on custom OEM systems tailored to specific application needs.
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http://www.dmphotonics.com

This week’s featured photonics innovations showcase a range of precision instruments driving progress in laser research, spectroscopy, imaging, and quantum applications. From high-power industrial lasers to advanced acousto-optic and frequency conversion components, these technologies represent the ongoing convergence of photonics and applied science.

A high-resolution reflectometer operating at 1310/1550 nm enables accurate measurement of reflection and insertion loss in optical components and waveguides. Ideal for fiber testing, it captures both sharp reflection peaks and distributed losses for precise propagation analysis.

A mid-infrared spectrometer covering the 2–5 µm range provides time-resolved spectroscopy for dynamic chemical and physical events. With exceptional resolution and sensitivity, it’s suited for gas sensing, environmental monitoring, and advanced materials research.

High-power fiber-coupled laser diodes at 915 nm and single-frequency external-cavity diodes at 770 nm offer exceptional beam stability for spectroscopy, quantum optics, and precision metrology. The narrow linewidth and tunability make them ideal for cold atom and frequency reference systems.

A deep-UV mirror optimized for 193 nm ensures superior reflectivity and surface quality for high-energy ultraviolet laser systems. The durable coating and low-defect surface make it a reliable element in lithography, excimer lasers, and microfabrication setups.

The 1542 nm fiber laser with optional frequency doubling provides outputs at 1542 and 771 nm for use in laser cooling, precision length metrology, and frequency comb stabilization. Similarly, the tunable OPO laser spanning 700–1950 nm supports advanced microscopy, coherent Raman imaging, and nonlinear optical studies.

Compact, diode-pumped Q-switched solid-state lasers at 1.535 µm deliver high peak powers in a miniature form, well-suited for eye-safe rangefinding, remote sensing, and lidar. For visible-range needs, a 594 nm laser serves applications in cytometry, fluorescence microscopy, and biomedical imaging.

A femtosecond Yb laser at 1030 nm offers synchronized ultrafast pulses for pump-probe studies, seeding amplifiers, and nonlinear microscopy. Its stable output and broad bandwidth make it a key tool in ultrafast spectroscopy and material dynamics research.

In the imaging domain, an InGaAs SWIR sensor with wide dynamic range and dual operating modes provides excellent performance for optical metrology, welding inspection, and free-space communication systems.

Acousto-optic tunable filters extend the versatility of imaging systems: a UV AOTF (350–430 nm) enables fluorescence imaging and spectral scanning, while a visible–NIR TeO₂ AOTF (650–1000 nm) supports hyperspectral imaging, quantum optics, and spectroscopy.

Further enabling optical characterization, a wideband optical-to-electrical converter (1480–1620 nm, up to 145 GHz) ensures stable and accurate photoreceiver and modulator testing. Optical frequency converters—spanning 532 nm to 880 nm—bring efficient wavelength conversion for LiDAR, metrology, and quantum networking.

Complementary tools include a broadband reflectometer (335–2500 nm) for surface analysis in aerospace, coatings, and LiDAR, and a precision interferometer for flatness measurements of reflective and non-reflective substrates.

Finally, optical design software provides a powerful CAD-based interface for modeling, analysis, and optimization of illumination systems—essential for engineers developing lightpipes, displays, and biomedical optics.

Together, these products highlight the rapid evolution of modern photonics, from light-based manufacturing to quantum communication and biomedical imaging. Their precision, versatility, and performance continue to expand the limits of what can be measured, controlled, and visualized through light.

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