Description | High performance at a low price!
With the iXon EMCCD microscope cameras, Andor has delivered a dedicated, truly high-end, yet accessible ultrasensitive scientific camera platform, designed specifically to drive the absolute best from EMCCD technology across all critical performance specs and High performance at a low price!
With the iXon EMCCD microscope cameras, Andor has delivered a dedicated, truly high-end, yet accessible ultrasensitive scientific camera platform, designed specifically to drive the absolute best from EMCCD technology across all critical performance specs and parameters.
Features: - Single photon sensitivity
- Back-illuminated > 95% QE
- Fast frame rates
- Unique price/performance
- The ultimate detector for single molecules
- Preserve accurate cell physiology
- SRRF-Stream+ super-resolution technology
... Read More | Marana is Andor’s latest high performance sCMOS camera platform, ideal for diverse applications within the physical sciences such as astronomy, Bose Einstein Condensation, quantum optics, hyperspectral imaging, neutron tomography and fast spectroscopy. It launches with the large field of view MaranaMarana is Andor’s latest high performance sCMOS camera platform, ideal for diverse applications within the physical sciences such as astronomy, Bose Einstein Condensation, quantum optics, hyperspectral imaging, neutron tomography and fast spectroscopy. It launches with the large field of view Marana 4.2B-11 back-illuminated sCMOS model, featuring 95% Quantum Efficiency (QE), market-leading vacuum cooling to -45 °C and 11 µm pixel for optimal photon collection. The large 32 mm diagonal sensor, coupled with rapid frame rate capability, renders the camera ideal for space debris tracking and Near Earth Object (NEO) detection.
Andor’s unique capability to deliver the ultimate in sCMOS sensitivity means signal to noise can be optimized under light starved conditions, ideal for tracking smaller orbital objects, spectroscopic detection of trace concentrations and BEC fluorescence detection of discrete numbers of atoms/ions. Higher sensitivity also means that exposure times can be shortened, facilitating faster frame rate measurements of dynamic processes, complimented by 48 fps frame rate. Marana 4.2B-11 comes with a choice of QE profiles, the UV enhanced option (‘BU’) extending usefulness towards specific application requirements between 260nm and 400nm. The innovative ‘dual-amplifier’ approach to extended dynamic range is ideal for accurately visualizing and quantifying challenging scenes that have both extremely weak and bright regions, such as solar measurements and spectroscopic materials characterisations. Furthermore, to achieve best-in-class quantification accuracy, Andor have implemented enhanced on-head intelligence to deliver market-leading linearity of > 99.7°C across the whole dynamic range, ideal for accurate photometry.... Read More | In a -40°C vacuum cooled platform, with 1 e- read noise, very low darkcurrent, Rolling and Global Shutter, and loaded with FPGA intelligence, Andor's Neo sCMOS camera is designed to drive optimal performance from this exciting and innovative new technology development.
The Neo 5.5 model is based In a -40°C vacuum cooled platform, with 1 e- read noise, very low darkcurrent, Rolling and Global Shutter, and loaded with FPGA intelligence, Andor's Neo sCMOS camera is designed to drive optimal performance from this exciting and innovative new technology development.
The Neo 5.5 model is based around a large 5.5 megapixel sensor with 6.5 µm pixels and a 22mm diameter, ideal for applications such as cell microscopy, astronomy, digital pathology and high content screening. The Neo 5.5 can deliver 30 fps sustained or up to 100 fps burst to internal 4GB memory. Extremely low darkcurrent means Neo 5.5 is suited to a range of exposure conditions. The Rolling and Global shutter flexibility further enhances application flexibility, Global shutter in particular offering an ideal means to simply and efficiently synchronize the Neo with other ‘moving’ devices such as stages or light switching sources and eliminating the possibility of spatial distortion when imaging fast moving objects.... Read More | Andor’s TuCam is a new generation two-camera adapter for macro or microscopic imaging applications. Available in C- or CSUX-mount, TuCam features include large aperture, exceptional transmission, very low distortion and high precision alignment using kinematic cassettes.
Andor’s TuCam is a new generation two-camera adapter for macro or microscopic imaging applications. Available in C- or CSUX-mount, TuCam features include large aperture, exceptional transmission, very low distortion and high precision alignment using kinematic cassettes.
- Largest aperture
- High quality achromatic lenses
- Highest transmission
- Very low distortion
Bypass mode. Andor’s TuCam is a new generation two-camera adapter for macro or microscopic imaging applications. Available in C- or CSUX-mount, TuCam features include large aperture, exceptional transmission, very low distortion and high precision alignment using kinematic cassettes.
TuCam can be configured for simultaneous imaging from two similar cameras or as a switch between camera models with different imaging capabilities.
A full range of beam splitting optics are available with custom-designed kinematic cassettes for precision alignment. These include wavelength and polarization splitters of the highest quality as well as a first surface mirror for switching between cameras.
A variety of camera tubes & lenses is available to provide magnifications of 1.0x, 1.2x, 1.5x and 2.0x in each arm of the adapter. A filter wheel can also be integrated at the input of TuCam to enable pre-filtering of the desired emission band.... Read More | ZL41 Cell is a new addition to the Zyla sCMOS series, designed specifically for life science researchers. It offers exceptional imaging flexibility, value, and compatibility. ZL41 Cell 4.2 is an upgrade from the Zyla 4.2 PLUS, delivering up to 82% QEmax and sub-electron read noise, making it ideal ZL41 Cell is a new addition to the Zyla sCMOS series, designed specifically for life science researchers. It offers exceptional imaging flexibility, value, and compatibility. ZL41 Cell 4.2 is an upgrade from the Zyla 4.2 PLUS, delivering up to 82% QEmax and sub-electron read noise, making it ideal for applications that require optimal sensitivity and speed.
ZL41 Cell 5.5 replaces the Zyla 5.5 and offers a 22 mm format sensor with 64% QE. It has a Global Shutter mode that is perfect for snapshot imaging of fast-moving objects without temporal distortion. The camera also features SRRF-Stream+, LightScan PLUS, and FCS Mode, making it a versatile and cost-effective solution for life science imaging.
GPU Express simplifies and optimises data transfer from the camera, making it ideal for data-intensive imaging experiments. The Camera Link version offers up to a blistering 100 fps, while the USB 3.0 interface offers 53 fps with the industry's fastest Region of Interest (ROI) frame rates. The camera offers industry-leading linearity (99.8%) for unparalleled quantitative accuracy of measurement across the full dynamic range.
Finally, the all-new sensor chamber design provides greater robustness and longevity, with a 3-year chamber integrity warranty. The ZL41 Cell models share software compatibility with the previous editions of Zyla 4.2P and 5.5 models.
Features:
- Up to 82% QE - Highest and broadest available sCMOS QE. Optimized to a wide range of common fluorophores. Enables shorter exposures, faster frame rates and reduced photobleaching.
- 0.9 e- read noise - Lowest read noise sCMOS. Significantly lower than any CCD.
- Industry Fastest Frame Rates - Follow faster processes. Industry-fastest USB 3.0 frame rates, 53 fps (full frame). 100 fps (full frame) sustained via Camera Link.
- 4.2 and 5.5 megapixel sensor formats and 6.5 µm pixels - Delivers extremely sharp resolution for modern microscopes with C-mount ports.
- SRRF-Stream+ - Super Resolution made cost effective, flexible and easy. New ZL41 Cell 4.2 compatible with our real-time Super-resolution Technology.
- LightScan PLUS - Reduce background and improve contrast and resolution in scattering samples. Designed to allow users to optimise signal strength and confocality concurrently in applications such as Scanned Light Sheet Microscopy and Line Scanning Confocal Microscopy.
- FCS Mode - Obtain the fastest speeds from minimal height ROIs configured for Fluorescence Correlation Spectroscopy experiments.
- GPU Express - Simplify and optimize data transfers from camera to a CUDA-enabled NVidia Graphical Processing Unit (GPU) card to facilitate accelerated GPU processing as part of the acquisition pipeline.
- Compatible - Maintains compatibility with previous Zyla series with no changes at EEPROM level.
- Robust - New mechanical design for greater longevity and sensor protection. 3 years warranty on sensor chamber integrity.
- Ultra - Low Fan Vibration - Designed with vibration sensitive experiments in mind, such as super-resolution microscopy.
- Dual-Gain Amplifiers - Maximum well depth and lowest noise simultaneously, affording extended dynamic range of 33,000:1
- 12-bit and 16-bit modes - 12-bit for absolute fastest frame rates through USB 3.0; 16-bit for full dynamic range.
- Extensive FPGA on-head data processing - Essential to ensure best image quality and quantitative fidelity from sCMOS technology.
- Hardware Timestamp - FPGA generated timestamp with 25ns accuracy.
- Dynamic Baseline Clamp - Essential to ensure quantitative accuracy across the image area and between successive images of a kinetic series.
- Python Ready - Take control with our new python integrated SDK. Ideal for custom system integrations.
- Water Cooled Option - Option for vibration sensitive applications. Available under request.
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