Advanced Imaging Cameras For Demanding Laboratory Studies

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The go-to solution for professional scientists who participate in demanding applications is to buy Andor camera that is guaranteed to provide them with all-round and high-performance solutions.

Scientists in the research and development field today enjoy ready access to advanced equipment that makes their day to day activities easier. The significant changes that have been introduced to the industry have led to tremendous changes that are redefining operations in the modern laboratory.

Professional scientists today, therefore, have greater capabilities in all their applications as manufacturers have upped their game when it comes to availing innovative products to the market. For scientific imaging applications, a must-have solution for most studies is the ultra-sensitive imaging camera that can support super-resolution microscopy. Currently, the market is flooded with lots of imaging cameras, and when looking to purchase one, there is the need to settle for the most advanced solutions in the market.

There are three distinct categories when it comes to modern microscopy digital cameras, namely; CCD, EMCCD, and sCMOS cameras. For all these categories, it is crucial to buy Andor camera given that the manufacturer has been at the forefront of developing outstanding models that have been loved for their excellent performance.

The practicality of these cameras for scientific imaging applications is they have multi-megapixel focal plane sensors that can cover a wide dynamic range and have super-high sensitivity. As a result, these sensors can efficiently deliver the high frame rates that come handy for capturing dynamic events with high temporal resolutions. Still, there is the need to carefully evaluate the different categories of Andor cameras before making a purchase, for the suitability of a fully customized solution.

Scientists after ultra-sensitive imaging cameras for fluorescence microscopy have the dedicated Andor Ixon Ultra 897 EMCCD camera to suit their demands. Rated as the market’s leading back-illuminated EMCCD, the camera has pushed speed performance in the industry as it delivers an outstanding 56 fps as it overclocks readout to 17 MHz. Despite these great speeds, the camera still maintains single-photon sensitivity and quantitative stability when in use.

Since the Andor camera model is developed exclusively for fluorescence microcopy, is has an optically centered crop mode that unlocks unparalleled frame rate performance from its centrally located ROIs, achieving outstanding super-resolution microscopy. Other distinct features of the Ixon Ultra 897 is that it has a 512 x 512 frame transfer sensor, deep vacuum cooling to -100°C, 16 µm pixel size, and extremely low spurious noise. It also supports plug and play USB connectivity, low noise conventional CCD mode, and an additional camera link output that allows for access to data for instant processing.

Another suitable solution for fluorescence microscopy applications is the Andor Ixon Ultra 888 EMCCD camera that has an outstanding market reputation for its quality and reliability. This innovative black-illuminated camera comes with a 1024 x 1024 sensor format plus a 13 µm pixel size that gives it great resolving power and a large field of view. It has equally been fundamentally re-engineered to support 3x acceleration of the pixel readout speed up to 30 MHz.

The Andor camera also has a crop mode that enables it to boost frame rates from a defined sub-region and TE cooling to -95ºC. All these qualities make the camera suitable for a wide range of applications including; live-cell imaging, super-resolution microscopy, single-molecule detection, and high time resolution astronomy. A pioneering patent technology by Andor further allows it to provide automated recalibration of EM gain, which is made better by the fact that signals are calibrated in units of electrons and photons.

Andor has equally embraced the breakthrough scientific CMOS technology that they have used in their Neo 5.5 cameras. Just as it has been developed from an outstanding technology, the camera does not disappoint as it has a set of great features that makes its performance great for high fidelity quantitative scientific measurements. Among these features include the -40°C vacuum cooled platform, 5.5-megapixel sensor format & 6.5 μm pixels, dual-gain amplifiers, and 1 e- read noise.

Different from other Andor cameras, this model has set new standards as it delivers true scientific imaging, sharp resolution over a 22mm field of view, rapid frame rates, and low detection limit than any CCD.

Other great features of this camera include a 4-GB on-head memory, a dynamic baseline clamp that guarantees quantitative stability, fan-off capability, and user-defined ROI & hardware binning. Andor Neo 5.5 sCMOS camera is further built to simplify and optimize data transfers from the camera to the GPU card facilitating rapid processing in its acquisition pipeline.

It is also loaded with FPGA intelligence, the UltraVac sustained sensor protection, and dual-gained amplifiers that have an extensive dynamic range of 30,000:1.

Summary

The decision to buy Andor camera for scientists in Singapore is value-based and has been simplified by renowned suppliers that avail innovative models. The ultra-sensitive imaging cameras are suited for demanding applications and will deliver stellar results without failure.

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