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It looks as if your deflection sensitivity is too large, causing the calculation of the separation (horizontal axis) to be incorrect. Did you calibrate the deflection sensitivity on a hard sample prior to acquiring this curve? --Bede
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It looks as if you have found a problem with the website. I have reported it, so it should be fixed shortly. Please check back when you have a free minute...
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Hi Dietmar, I was not able to find a case where the filenames did not match the curve numbers displayed in the view prior to export. If you figure out what the conditions were that caused your issue, please let me know and I'll get the issue fixed! I'm glad to hear that Point & Shoot force curves are working for you. Sincerely, --Bede
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Hi Tobias, You are correct, the PeakForce QNM key is required to collect PeakForce Capture files. Without the key, you will have to stick with force volume or point&shoot ramping. --Bede
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Hi Dietmar, What version of Nanoscope Analysis are you using? You can find this in the Help>About... menu. Did you enter the curve numbers or did you move the cursors to selelct the curve numbers? When you do the export, are you exporting as "2 time-evenly spaced curves in each file"? I tried to repeat your results with the latest version
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Hi Sarah, Currently we cannot open .iro files without the full version of Nanoscope and the MIRO key being present on the system. We will look into making this available in a future version of Nanoscope Analysis. --Bede
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Hi Moritz, In cases such as the one that you describe, it is difficult to determine the true deformation. The simple algorithm that we use to calculate the deformation may not match the true deformation, but it has the advantages that it is easy to describe and calculate in real-time. As the application note states: "Maximum sample deformation
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Hi Tobi, Your issue arises because it takes time to transfer the data from the DSP card in the computer to the computer's main memory. All of the curves are captured in the 500ms duration, but you have to wait for them to upload before you can trigger another capture. To save all of the force curves in the image, either set up the scan to take a
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please see this thread: http://nanoscaleworld.bruker-axs.com/nanoscaleworld/forums/t/1353.aspx
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I'm afraid not. You could get this by calculating the positions using the scan size and the samples/line and lines, or you could save the X and Y sensor as separate images and use the measured position for each pixel (you will need to calibrate the X and Y sensor in the "Calibrate>Detector" dialog). Either way will require some manipulation