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NHQ-Zeiss Label-Free High Content Imaging Module ≫

The NHQ-Zeiss module relies on the core label-free optical imaging technology — Intelligent Quantitative Phase Microscopy — to realize label-free quantitative phase imaging and analysis of cells. Based on the quantitative analysis of phase information, combined with the algorithm advantages of LFAI™ (Label-free AI) software, it can not only perform virtual staining on samples to visualize parameters without damaging cells but also obtain rich biological information such as cell dry weightvolume, and rigidity.
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Label-free imaging module
Real-time imaging
Subcellular resolution

Designed for Zeiss compatibility

Compatible with Axio Observer 3/5
Expandable to Axio Observer 7
Enjoy more perspectives easily

Rich accessory options

Choose accessories according to requirements
Equipped with intelligent analysis software
Endow dynamic vitality

Compatible Models of NHQ-Zeiss

The Zeiss Axio Observer series is a set of advanced reflective microscope systems designed for life science research and industrial applications. BJR’s label-free high-content imaging module can support the upgrade of Axio Observer 3 and 5 series products to realize label-free quantitative phase analysis of cells. Axio Observer 7 can be expanded in the future.

 

Axio Observer 3

Manual main unit with encoded components

Axio Observer 5

Manual main unit with encoded objective turret and encoded or motorized filter turret

Axio Observer 7

Motorized main unit with motorized Z-axis drive

About Zeiss

Founded in 1846, ZEISS is a world-leading optical and optoelectronic technology company. Its microscopes and imaging systems are widely used in scientific research, medical treatment, industry, and other fields, making it one of the technological pioneers in the optical and optoelectronic industry.

Ernst Abbe

(1840—1905)

The interference effect of diffraction phenomena plays an important role in microscope imaging

Ernst Abbe (1840–1905), a German physicist, optician, and entrepreneur, joined ZEISS in 1866. He collaborated with the company’s founder Carl Zeiss to promote the development of optical instrument design. Abbe made important contributions to microscope theory, including the proposal of the Abbe sine condition and Abbe imaging principle. His theories and practices in the optical field laid the foundation for modern microscope technology. Abbe’s theory emphasized the role of diffraction in imaging, holding that microscopes present the interference effect of diffraction phenomena.

Abbe:Microscopes present the interference effect of diffraction phenomena.

The diffraction limit formula inscribed on Abbe’s tombstone