The A64.1020 utilizes resonant scanning technology, enabling extremely high-frequency scanning for rapid sample imaging. Scanning speeds are increased by nearly 20 times, shortening illumination time while maintaining image quality. This reduces photobleaching and phototoxicity, facilitating prolonged observation of sensitive samples such as living cells.
It empowers users with unprecedented convenience in operation, effortlessly digitizing management and enabling precise control over multiple electric components within the microscope, such as objective lens switching, focusing, condenser lens changing, and fluorescence module transitions.
The A64.1020 laser confocal microscope’s array detector accurately captures extremely weak fluorescence signals, ensuring clear, detailed images. Its high resolution allows for precise resolution of sample microstructures, allowing even the smallest features to be clearly visualized.
It is capable of memorizing custom observation modes and supports the combined use of X, Y, Z, λ, and T scanning functions. Equipped with a variety of flexible shooting modes, including multi-channel fluorescence imaging, time-lapse scanning, multi-position acquisition, Z-axis stacking, and panoramic stitching. These five modes can be freely combined according to the user’s actual needs, adapting to a wide range of complex and diverse experimental application scenarios.
The A64.1020’s detector array, composed of multiple closely spaced SPAD detector elements, collects two-dimensional spatial information at each scan point. This two-dimensional information can be used to obtain ultrafine structures that are lost in traditional confocal detection.
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