Multimode cocoa 6.8.011/11/2022 ![]() īecause of its high capacity and reliability, multi-mode optical fiber generally is used for backbone applications in buildings. Typical transmission speed and distance limits are 100 Mbit/s for distances up to 2 km ( 100BASE-FX), 1 Gbit/s up to 1000 m, and 10 Gbit/s up to 550 m. PeakForce TUNA™ – Quantitative conductivity mapping on delicate samples that can’t be imaged with conventional conductive AFM.The equipment used for communications over multi-mode optical fiber is less expensive than that for single-mode optical fiber.NEW Ringing Mode – Enhanced surface adhesion property mapping, with 8 new quantitative compositional imaging channels.PeakForce QNM – Direct nanomechanical property mapping, including elastic modulus, adhesion and dissipation, at high resolution and normal scan rates.Powerful, Unique Quantitative Imaging Modes The tip-sample interaction force is continuously monitored by ScanAsyst, eliminating set-point drift. Easy imaging in fluid, with no need for cantilever tuning.Automatic image optimisation and continual adjustment of scan rate, set-point and gain, to obtain the highest quality image and faster, more consistent results.Wide choice of standard operating modes and many unique capabilities, to characterise everything from mechanical to electrical properties.Heating to 250☌ and cooling to -35☌ with temperature control accessories.20X faster survey scan rates and up to 6X faster scans with no loss of resolution, with high speed ScanAsyst-HR.New high speed ScanAsyst-HR for faster scanning.More AFM research has been published using Bruker MultiMode AFM systems than any other model. Its continued presence at the leading edge of AFM research is due to features that incorporate the latest technology advances: Fast Scanning Simultaneous Electrical and Mechanical Property Mapping at the Nanoscale.Quantitative Mechanical Property Mapping at the Nanoscale.New higher resolution, higher sensitivity surface potential mapping is now also possible. The revolutionary PeakForce TUNA mode (exclusive to Bruker) combines the superior force control and nanomechanical property mapping of PeakForce QNM with the high current sensitivity of TUNA. Dedicated application modules enable various electrical measurements, including current mapping (conductive AFM), low current mapping (“Tunneling AFM”, TUNA), and wide range current measurements (Scanning Spreading Resistance, SSRM). Unique PeakForce QNM mode enables fast, high-resolution mapping of nanomechanical properties, including modulus, over a wide range (kPa to GPa). Quantitative NanoMechanical and NanoElectrical Philipe Leclère et al, University of Mons (UMONS) Belgium “Thanks to PeakForce QNM, we were able to rapidly obtain pertinent information on the mechanical properties of very soft and sticky polymer materials, such as bioadhesives or adaptive hydrogels, that other classical SPM techniques were not able to provide.” Use a wide range of unique modes – or invent your own! Unlimited Potential- Fully Flexible Open AccessĪccess AFM functions easily and directly with NanoScope ® Open Access Toolbox.Users of all experience levels can acquire expert-level results with ScanAsyst ® image optimisation software. Undertake visco-elastic studies on the widest frequency range available today, and employ the largest range of nanoelectrical techniques. Routine, quantifiable, nanoscale electrical and mechanical property mapping. 6x faster imaging in air than most conventional AFMs, with no compromise in performance. High-resolution images every time with PeakForce Tapping. ![]()
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