A1 MP+ / A1R MP+

A1 MP+ / A1R MP+
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A1 MP+ / A1R MP+

Product catalog summary
Overview: Nikon's A1 MP+/A1R MP+ multiphoton confocal microscopes are designed for advanced biological imaging, offering ultra-deep visualization capabilities within living organisms. These systems are compatible with various microscope models and provide high-speed, high-resolution imaging.
Specifications:
  • Imaging speed up to 420 frames per second (fps) at 512 x 32 pixels.
  • Deep specimen imaging with high-sensitive non-descanned detectors (NDD) near the objective lens.
  • GaAsP NDD model supports 1300 nm wavelength for in vivo imaging up to 1.4 mm depth.
  • Auto laser alignment corrects IR laser beam shifts.
  • Compatible with both upright and inverted microscopes.
Imaging Capabilities:
  • Ultra-deep imaging for analyzing brain neurons and other mechanisms in living specimens.
  • In vivo imaging of mouse brain up to 1.4 mm depth using 1300 nm wavelength.
  • Channel unmixing technology for clear isolation of multiple fluorophores.
  • High-speed imaging captures rapid changes and dynamics in living organisms.
Applications:
  • Brain research and neuroscience applications.
  • In vivo imaging of living specimens, including blood flow and cellular interactions.
  • Visualization of intravital microcirculation and dynamic in vivo imaging of granulocytes.
Technological Features:
  • Resonant scanner for high-speed imaging with stable, geometrically correct images.
  • High-NA objectives with Nano Crystal Coat technology for enhanced transmission and reduced reflections.
  • Auto laser alignment for multiphoton excitation wavelength changes.
Conclusion: The A1 MP+/A1R MP+ systems offer cutting-edge multiphoton imaging capabilities, ideal for deep tissue imaging and advanced research in biological sciences. Their high-speed, high-resolution imaging and compatibility with various microscope configurations make them a valuable tool for researchers.
Introduction: The document discusses the advanced features of Nikon's A1 MP+ series, focusing on its capabilities for multiphoton laser beam alignment, imaging sensitivity, and high-speed data acquisition.
Specifications Overview: The document provides detailed specifications for Nikon's microscopy equipment, focusing on detectors, laser units, and imaging capabilities. Key components include various detector types such as Episcopic and Diascopic NDDs, with specific models for different microscopes (Ni-E, FN1, Ti-E). The standard fluorescence detector covers wavelengths from 400-750 nm, with options for multiphoton observation.
Detector and Imaging Details: Options include the A1-DU4 4 Detector Unit and the A1-DUG GaAsP Multi Detector Unit. The document specifies filter cubes and recommended wavelengths for multiphoton/confocal observation. The field of view is a square inscribed in an 18 mm circle, with image bit depth at 4096 gray intensity levels (12 bit).
Scanning and Image Acquisition: The scan head supports standard and high-speed image acquisition, with pixel sizes up to 4096 x 4096 pixels. Scanning speeds vary from 2 fps to 420 fps depending on the mode. The document details zoom capabilities and scanning modes, including X-Y, X-T, and X-Z.
Laser and Optical Specifications: IR laser wavelength ranges from 700 to 1300 nm. The dichroic mirror uses a low-angle incidence method, with a standard filter range. The pinhole size is variable from 12-256 μm. Spectral detectors have a wavelength detection range of 400-750 nm, with options for 32 channels.
Microscope Compatibility and Software: Compatible microscopes include the ECLIPSE Ti-E, FN1, and Ni-E models. Software capabilities include 2D analysis, 3D volume rendering, and spectral unmixing, supporting various image formats like JP2, JPG, and TIFF.
Control and Operation: The control computer runs on Windows 7 Professional 64-bit, with an Intel Xeon CPU and 16 GB memory. The system requires a vibration-isolated table and specific power sources for different components.
Laser Units and Precompensation: Nikon's laser units for multiphoton microscopy include built-in group velocity dispersion precompensation to maintain pulse width and peak power. The document lists various laser models and configurations.
Dimensions and Weight: Dimensions and weights are provided for various components, including the scan head, detector units, and laser modules.
Operational Conditions: Recommended operational conditions include a temperature range of 20-25 ºC and humidity below 75% RH. Power requirements are specified for different system components.
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Catalog excerpts

A1 MP+ / A1R MP+-1

Multiphoton Confocal Microscope A1 MP+/A1R MP+ NIKON CORPORATION Fuji Bldg., 2-3, Marunouchi 3-chome, Chiyoda-ku, Tokyo 100-8331, Japan www.nikon.com/ Multiphoton confocal microscope

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A1 MP+ / A1R MP+-2

The A1 MP+/A1R MP+ multiphoton confocal microscopes provide faster and sharper imaging from deeper within living organisms, extending the boundaries of traditional research techniques in biological sciences. •Ultrahigh-speed imaging up to 420 frames per second (fps) (512 x 32 pixels) with multiphoton imaging using A1R MP+’ high efficiency optics and resonant scanner. • Deep specimen imaging with high-sensitive non-descanned detectors (NDD) located close to the back aperture of the objective lens. A new model of an ultrasensitive gallium arsenide phosphide (GaAsP) NDD for upright microscopes that...

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A1 MP+ / A1R MP+-3

Ultra-deep imaging of living specimens The ultrasensitive GaAsP NDD allows clear in vivo imaging in deeper areas than ever before and is powerful enough to analyze the mechanisms, such as brain neurons, of living specimens. In addition to a model compatible with a wavelength of 1080 nm, there is a new one for upright microscopes that is compatible with a wavelength of 1300 nm. This new NDD enables deep imaging up to 1.4 mm in combination with a newly developed scanning head A1R MP+ that is compatible with a wavelength of 1300 nm. Mouse brain in vivo dual color imaging with the GaAsP NDD compatible...

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A1 MP+ / A1R MP+-4

Channel unmixing Fast multiphoton imaging, powerful enough for in vivo imaging Channel unmixing The Nikon resonant scanner is capable of high-speed 420-fps imaging, the world’s fastest for a multiphoton microscope using point scanning technology. Unique to this design is a resonant scan mirror capable of imaging full fields of view at much higher speeds than traditional galvano scanners. Nikon's optical pixel clock system, which monitors the position of the resonant mirror in real time, adjusts the pixel clock to ensure more stable, geometrically correct and more evenly illuminated imaging even...

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A1 MP+ / A1R MP+-5

Channel unmixing Multiphoton imaging gallery Four-color imaging of human colon cancer cells in in vivo SHG image of the brain surface of a mouse Three-dimensional volume rendering of implanted subcutaneous tumor of HCT116 expressing Fucci. The cell cycle of tumor cells and the environment (collagen fiber and vessels) are visualized. Upper right, only collagen fiber and vessels are shown. The neocortex of an H-line 5-week-old mouse was studied with the open skull method. The SHG signals from dura mater and EYFP fluorescence signals were simultaneously acquired using the NDD. Red: Fucci mkO2/cancer...

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A1 MP+ / A1R MP+-6

A1 MP+/A1R MP+ achieve the most advanced multiphoton imaging Standard NDD Nikon’s high-NA objectives are ideal for multiphoton imaging The fluorescence emissions from deep within a specimen are highly scattered in multiphoton excitation, and therefore the conventional detector using a pinhole cannot provide bright fluorescent images. The episcopic NDD in the A1 MP+/A1R MP+ is located close to the back aperture of the objective to detect the maximum amount of scattered emission signals from deep within living specimens. The use of this four-channel detector in combination with special spectral...

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A1 MP+ / A1R MP+-7

Two types of scanning head enable high-speed, high-quality imaging A1 MP+ is equipped with a galvano (non-resonant) scanner for high-resolution imaging. A1R MP+ is a hybrid scanning head that incorporates both galvano and ultrahigh-speed resonant scanners. A1R MP+ allows imaging and photoactivation at ultrafast speeds necessary for revealing cell dynamics and interaction. Ultrafast photoactivation and imaging High-resolution imaging Photoactivation during fluorescence imaging can be conducted using both galvano and resonant scanners. Two types of A1R MP+, the conventional 1080 nm type and the...

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A1 MP+ / A1R MP+-8

Key Nikon innovations for improving image quality Enhanced spectral detector The best image quality is achieved by an increased light sensitivity resulting from comprehensive technological innovations in electronics, optics and software. Nikon’s original spectral performance is even further enhanced in the A1 MP+ series, allowing high-speed spectral acquisition with a single scan. In addition, advanced functions, including real-time unmixing, are incorporated. Low-angle incidence dichroic mirror With the A1 MP+ series, the industry’s first low-angle incidence method is utilized on the dichroic...

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A1 MP+ / A1R MP+-9

Intuitive, easy-to-use software for multiphoton imaging NIS-Elements C Acquisition and Analysis software Simple operations common with Nikon confocal microscopes Channel unmixing function Microscope control •All necessary operations for image capture are displayed in one window. •Lasers and detectors for visible laser excitation can be switched simply by selecting fluorescent probe to be used. •One-touch switching of high speed resonant scanner and high-resolution galvano (non-resonant) scanner •Simultaneous photoactivation with high speed imaging is possible with visible laser excitation. Nikon's...

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A1 MP+ / A1R MP+-10

System diagram ^ Laser Unit for Multiphoton Microscopy ^ Chameleon Vision II MaiTaiHP/eHP InSight DeepSee*1 Laser Unit for Confocal Microscopy ^ LU-LR 4-laser Power Source Rack ^ Detector Unit for Confocal Microscopy^ A1-DUS Spectral Detector Unit Filter Cubes ^ Incident Optical Unit ^ ^ Scan Head and Controller ^ Scan Head Detector Unit for Multiphoton Microscopy Diascopic Non-descanned Episcopic Non-descanned Detector (Standard/ (Standard/ Filter Cubes *1 When using a scan head for 1300 nm *2 When using Spectral Detector Unit. *3 Dedicated adapter is required depending on microscope model....

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A1 MP+ / A1R MP+-11

Laser Chiller for Multiphoton Microscopy Incident Optical Unit Incident Optical Unit Laser for Multiphoton Microscopy Laser Controller for Multiphoton Microscopy Laser Controller for Multiphoton Microscopy Scan Head Scan Head Non-Descanned Detector Vibration Isolated Table Non-Descanned Detector 4 Detector Unit, Spectral Detector Unit, Controller Vibration Isolated Table 4 Detector Unit, Spectral Detector Unit, Controller Laser Chiller for Multiphoton Microscopy 4-laser Module A, 4-laser Power Source Rack Approx. 2750 4-laser Module A, 4-laser Power Source Rack Laser for Multiphoton Microscopy...

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All Nikon Instruments catalogs and technical brochures

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*Prices are pre-tax. They exclude delivery charges and customs duties and do not include additional charges for installation or activation options. Prices are indicative only and may vary by country, with changes to the cost of raw materials and exchange rates.