Raycision’s x ray irradiator is designed to deliver precise and controlled doses of X-ray radiation for a variety of applications, including biological research, medical treatments, and material testing. It features advanced beam control, adjustable dose rates, and a broad energy range, ensuring tailored irradiation protocols. User-friendly interfaces and automated workflows streamline operation, while built-in safety features and regulatory compliance ensure secure and reliable use. Robust construction and comprehensive support services further guarantee long-term performance and minimal downtime.

Features of SHARP 100 X Ray Irradiator System

Safety compliance: the external dose-rates are lower than 0.5 μSv/h; no additional shielding is required.

Irradiation dose-rates: ranging from 0.01 to 100 Gy/min, the dose-rate can be conveniently adjusted by altering the voltage and current of the system, or by changing the level of the stage.

Dose uniformity: the system of the x ray blood irradiator ensures a high dose uniformity of 95% or greater.

Targeted irradiation: the adjustable beam collimators enable high-precision local irradiation.

Raycision offers cutting-edge imaging technology and image guided radiation system for preclinical studies. Our radiation systems include everything from basic X-ray irradiators to multimodality image-guided precision radiation systems. The imaging systems offer a broad spectrum of capabilities extending from micro-CT imaging to optical molecular imaging. Whether for preclinical optical imaging or small animal radiation therapy, we are committed to providing products with exceptional performance and reliability.

Small animal CT is a preclinical computed tomography system for small animal research, providing anatomical imaging for oncology, cardiology, orthopedics, and drug development. It uses optimized X-ray detector and reconstruction algorithm to capture tissue details with low radiation dose, enabling fast whole-body scanning. Integrates with preclinical imaging systems for combined anatomical and functional data analysis. Simplified workflow supports stable imaging performance for reproducible research outcomes.