MARS 意为 Multi-color Acquisition Research System，是一款多色成像系统，可实现全波段（400-1700 nm）荧光，光声，超声，X射线，CT多模态成像。
MARS的近红外二区相机采用Teledyne Princeton Instruments 的NIRvana系列，其出色的量子效率与先进的噪声抑制技术为高品质成像提供保证。
MARS is a Multi-color Acquisition Research System, which can accomplish full-spectrum (400-1700 nm) fluorescent, photoacoustic, ultrasonic, X-ray, and CT multi-modal imaging.
The short wave infrared camera inside MARS system is the NIRvana from Teledyne Princeton Instruments. Its excellent quantum efficiency and advanced noise suppression technology can guarantee the unparalle performance of MARS to reliablely produce high quality data.
FAST and Pathfinder two sets of customized optical solutions can meet the experimental requirements of different scenes. From the overall shooting of mice in a large field of view to the local micro analysis, our distinctive optical solution can provide you with the excellent luminous flux and signal intensity on the premise of ensuring the spatial resolution.MARS is used for fluorescence imaging of small laboratory animals in vivo, which is not used in human experiments for the time being.
MARS system adopts a unique overall design, and the open user interface brings excellent convenience and flexibility. Modular design can facilitate users to expand functions, and integrate imaging systems such as ultrasound, photoacoustic, CT scan, fluorescence life, PET-CT, MRI, etc., to provide seamless multimodal imaging solutions.
It is a new full spectrum imaging microscope with wavelength ranging from 400 nm to 1700nm. The optimization and design of infrared two Zone optical path can help users obtain the deep level microscopic imaging ability of small animals in vivo.
Compared with other micro techniques, infrared two zone microscope has many advantages, such as high penetration depth, high speed, good compatibility and so on. It can be used in many fields, such as micro angiography, tumor local imaging, cell staining experiment, pathological section analysis and so on.
MARS-FS系统别具匠心的整体设计，为用户带来独特的便捷性与灵活性。模块化的结构设计方便用户进行功能扩展，紫外到红外的全谱成像能力，可结合高光谱成像、显微、 荧光寿命、X射线激发等系统， 实现多模态成像解决方案。
The small animal full spectrum living fluorescence imaging system has a one zone two zone dual light path design, which can achieve dual spectrum simultaneous imaging and lighting. The coaxial light design can achieve free field switching without affecting the light uniformity.
The overall design of MARS-full spectrum brings unique convenience and flexibility to users. The modular structure design is convenient for users to expand functions. The full spectrum imaging capability from ultraviolet to infrared can be combined with hyperspectral imaging, microscopy, fluorescence lifetime, X-ray excitation and other systems to achieve multimodal imaging solutions.
The multi focus fusion algorithm is specially designed for the defocusing problem caused by depth of field in live imaging, and can automatically realize image fusion at different depths.
System design and system integration