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Laser Confocal Microscope A64.1095
It Is Used For Accurate Imaging Of Biological Slices, Living Cells Or Internal Structures Of Living Tissues; Three-dimensional Image Reconstruction Analysis; Multi-channel Fluorescence Channel Analysis, Fine Analysis Of Spectral Signals; The Qualitative, Quantitative And Localization Distribution Of Biological Substances Such As Molecules, Organelles Or Ions Are Detected. |
| Optical Path Design of A64.1095
The laser output of all lasers is controlled by the acousto-optic controller (AOTF). After integration, it enters the scanning head system and can be turned on with one key to avoid the risk of cross-color caused by multiple channels and ensure the stability and accuracy of the optical path output.
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Interactive Operation
Convenient interactive mode and multiple control methods could meet different needs of users from beginners to professional users.
Combined with the powerful features for software and hardware interactive automation of this product , it has greatly simplified the whole Set experimental process , which could easily realize generation of three-dimensional structure and analysis functions such as time-lapse Analysis of multiple regions etc. By using matched NOMIS Advanced C. |
| High signal-noise ratio High resolution image Obtaining high signal-noise ratio images based on high-sensitivity photo multiplier light(PMT) and stable laser light source At the same time , the system adopts high-speed scanning galvanometer to realize real-time scanning up to 4096x4096 Resolution, the use of large numerical aperture objective(100times,N.A=1.45) ensures high-quality imaging resolution. |
| A64.1095 Laser Confocal Microscope, Full Auto Motorized | |
| Confocal Laser Unit | |
| Laser Unit | 4 Laser Units: Laser 405 nm Optical Fiber Export Power 30mW, End Power 16mW Laser 488 nm Optical Fiber Export Power 30mW, End Power 16mW Laser 561 nm Optical Fiber Export Power 30mW, End Power 16mW Laser 640 nm Optical Fiber Export Power 30mW, End Power 16mW |
| AOTF | The Laser Ooutput of All Lasers Is Controlled By the Acousto-Optic Tunable Filter (AOTF). After Integration, Lasers Enter The Scanning Head System And Can Be Turned On With One Key, Avoiding The Risk of Cross-Color Caused By Multiple Channels And Ensuring The Stability And Accuracy of The Optical Path Output. Laser Intensity Adjustment Range 0.01%-100%, Minimum Adjustment Step Accuracy 0.01% |
| Detector | Wavelength 400-750nm, High Sensitive 4 PMT, One of PMTs Is Used For 640nm Channel And DIC Channel Switching |
| DIC Detector | Wavelength 400-750nm, High Sensitive 1 PMT |
| Scanner | The Confocal Scan Head Is Coupled to The Left Interface of The Microscope Body to Achieve The Highest Quality Optical Path Imaging. Maximum Pixel Size: 4096x4096, 4K Real Time Scanning Speed: 2 FPS(512 x 512) , 8 FPS(256 x 256) , 0.5 FPS(1024×1024) , 0.12 FPS(2048×2048), 0.03 FPS(4096×4096) |
| Scan Mode | X-T, Y-T, X-Y, X-Y-Z, X-Y-Z-T |
| Pinhole | Hexagon shape, Continuouslv Variable Transmission (CVT), Adjust Range 0~0.5mm |
| Field Number | Confocal Scan Field: Square Inscribed In Dia.18mm Circle (14x14mm) |
| Image Bit Depth | 16 Bits |
| Motorized Inverted Fluorescent Microscope (A16.1098) | |
| Optical System | NIS60 Infinite Optical System (F200) |
| Eyepiece | EW10x/25mm, EP17.5mm, Adjustable Diopter -5~+5°, Dia.30mm |
| Head | Seidentopf Trinocular Head, Inclined at 45°, Interpupillary Distance 47-78mm, Eyepiece Tube Dia.30mm,Fixed Visibility; Light Split Switch E100/P0,E50/P50,E0/P100, Built-in Bertrand Lens Position Adjustable |
| Output Port | Splitting Ratio: Left:Eyepiece=100:0; Right:Eyepiece=100:0 |
| Nosepiece | Motorized Sextuple Nosepiece, With DIC Slot, M25x0.75 |
| Objective | NIS60 Infinity Plan LWD APO Objective, Cover Glass 0.17 APO 10x N.A.0.45, W.D. 4.0mm APO 20x N.A.0.75, W.D. 1.1mm Semi-APO 40X N.A.0.95, W.D. 0.3mm APO 60x N.A.1.42, W.D. 0.14mm,Oil APO100x N.A.1.45, W.D. 0.13mm, Oil |
| Condenser | 6-Position Motorized Condenser, N.A.0.55, W.D.26, Slot For Phase Contrast Plate 10x/20x, 40x, 60x Optional, Slot For DIC Plate 10x, 20x/40x Optional |
| Illumination | Transmitted Kohler Illumination10W LED |
| Epi-Illumination Wide-Field Fiber Illumination, With 6-Position Motorized Fluorescent Disc, Including B,G,U Fluorescent Filters, With Motorized Fluorescent Shutter | |
| Intermediate | Manual 1x, 1.5x, Confocal Switching |
| Workig Stage | X/Y/Z Motorized Working Stage 325x144mm, Moving Range 130x100mm, Maximum Speed 25mm/s, Resolution 0.1μm, Repeat Accuracy 3μm, With Mechnical Adjustable Slide Clamp |
| Focusing | Manual & Motorized Coaxial Coarse and Fine Focusing Adjustment, Focusing Stroke Up 7mm, Down 2mm, Coarse Stroke 2mm/Rotation, Fine Stroke 0.002mm/Rotation, Minimun Stroke 0.01um Under Motorized Control |
| DIC | DIC Plate 10x, 20x, 40x Plate, Can Be Inserted in Nosepiece Slot, Optional |
| Controller | Joy Stick Controller, Control Box, USB Cable |
| Computer + 4K Monitor + Digital Camera | |
| Computer | 1. Windows 10 Pro 64 bit Operating System |
| 2. CPU: Intel Core i7-8700, 6 Core, 12MB Cache, 3.20GHz, 4.6Ghz Turbo w/ HD Graphics 630 | |
| 3. RAM: 16GB (2x8GB) 2666MHz DDR4 UDIMM Non-ECC | |
| 4. Hardware: 3.5"" 1TB 7200rpm SATA Hard Disk Drive | |
| 5. Video card: NVIDIA Quadro P620, 2GB, 4 mDP to DP Adapter | |
| 6. USB Interface: 6 Available USB Slots | |
| 7. Display: 24” Monitor Display that Supports 1920X1080 Resolution | |
| Software | NOMIS Advanced Version, Display/Image Processing/Analysis 2D/3D/4D Analysis, Time-lapse Aanalysis, 3D Volume Render/Orthogonal, Image Stitching, Multi-channel Color Confocal Image |
| Camera | USB 3.0 Digital Camera For Fluorescent Image |
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