Rayever Ho/Cr Solid-State Lasers Unlock New Possibilities for Multi-Scenario Applications

Breaking Barriers in Mid-Infrared: Rayever Ho/Cr Solid-State Lasers Unlock New Possibilities for Multi-Scenario Applications

As mid-infrared laser technology evolves rapidly, light sources in the 2-3μm band have become core tools in fields such as healthcare, industry, and scientific research. Rayever’s Ho/Cr solid-state lasers, driven by thulium fiber laser pumping technology, achieve efficient tunable mid-infrared laser output, delivering high-reliability, high-performance light source solutions for diverse industries.

🔧 Technical Core: Pump-Driven Precision Coverage of Key Mid-Infrared Bands

Using advanced thulium fiber laser pumping technology with an efficient energy transfer mechanism, these lasers deliver precise output across two distinct bands:

Ho-xx Series: Output wavelength ranges from 2040 to 2200nm, enabling continuous tuning in the 2.1μm band. Perfectly matching water’s absorption peak, it provides a high-absorption-efficiency laser source for medical and precision processing applications.

Cr-xx Series: Output wavelength ranges from 2200 to 2900nm, offering tunable output across the 2.2–2.9μm band to meet broader mid-infrared spectral application needs.

Both models support continuous-wave (CW) and pulsed operating modes to accommodate diverse process requirements. The Ho series delivers average power from 50W to 600W, while the Cr series ranges from 10W to 300W—with custom power configurations available for both. A 10–100% wide-range power adjustment capability and ±1% power stability ensure precise, controllable output and consistent long-term performance.

✨ Core Advantages: Performance That Pushes the Boundaries of Industrial Applications

Rayever’s Ho/Cr solid-state lasers overcome the limitations of traditional mid-infrared light sources with multiple technical strengths:

Compact Design: The integrated structure significantly reduces device size, enabling easy integration into various systems and equipment for space-constrained scenarios.

High Energy Conversion Efficiency: Thulium fiber pumping technology achieves highly efficient conversion of pump light to laser output, reducing energy consumption while boosting overall system efficiency.

Superior Beam Quality: The output beam offers excellent focus and uniformity, meeting the strict beam quality requirements of precision processing and spectral detection applications.

High Reliability: Built on a mature solid-state laser architecture with industrial-grade components, the lasers ensure stable long-term operation and low maintenance costs.

🌐 Versatile Applications: Full-Scenario Coverage from Clinical Medicine to Cutting-Edge Research

Combining the unique spectral characteristics of mid-infrared lasers with the high performance of Rayever’s lasers unlocks broad application value across multiple fields:

Healthcare & Aesthetics: Ho lasers, with shallow tissue penetration and minimal thermal damage, are widely used in minimally invasive surgeries such as urological lithotripsy and soft tissue cutting. Cr lasers at the 2.9μm band excel in dental treatment and skin repair, enabling precise therapy and rapid recovery.

LiDAR & Environmental Monitoring: Mid-infrared lasers offer unique detection capabilities for atmospheric components and aerosols, supporting applications like atmospheric remote sensing, pollution monitoring, and long-range LiDAR to enhance detection accuracy and anti-interference performance.

Industrial Processing & Scientific Research: Ideal for precision processing of non-metallic materials such as plastics and ceramics, while serving as pump sources for nonlinear frequency conversion to provide stable light sources for mid-infrared ultrafast pulse lasers and spectroscopy research.

Rayever’s Ho/Cr solid-state lasers deliver customized band coverage and reliable performance, offering a brand-new solution for mid-infrared laser applications. Whether for large-scale industrial use or high-precision scientific research, these lasers leverage their technical advantages to help users break through application bottlenecks and explore new possibilities in mid-infrared laser technology.