-
Hi, Warren, The image looks like raw without flattening, did you try first order flattening processing on the image? Ang Li
-
for non-homogeneous, anisotropic and multi-components materials, bulk property is not enough if the application involves scale level vairations I guess. For some nanomaterials, you also have to go for nanolevel to get the properties, like carbon nanotube and nanoparticles. Ang Li
-
I guess Alex meant on Catalyst system, for most of the probes, prob <25nm/V, on the other systems it may vary I guess. Ang
-
Hi, Djuenne, You may send me your files, my contact is ang.li@bruker-nano.com . LA
-
Hi, Keith and Janne, I guess Nanoman can partially do what you are trying to do. In Nanoman, you can lift z to certain height and draw a line over xy plain in either contact mode or tapping mode, you can also define the speed of lift and line drawing, though this is only for one line scan but not a whole image scan. Ang Li
-
Hi, Mithun, Sending me raw data is sufficient, all parameters will be attached in file header. Ang Li
-
Hi, Mithun, some quick answers to your questions: 1. We don't actually indent Ti tip check sample for tip radius calibration, it's purely topography based method. so you can just set setpoint as auto when you scan the tip check sample, no worry about the indentation depth. 2. If you can posts your contact here, I can send you some materials
-
Hi, Nishith, What's your setting in ramp mode? You may send me your ramp files in single ramp as well as in point and shoot so I can check for you if anything you missed. My email is ang.li@bruker-nano.com Ang Li
-
Hi, Solverra, If your particles can be recognized in the modulus channel, you can try particle analysis function to get the averaged modulus value of each particle. Besides this, bearing analysis may also help to get the overall average modulus depending on the contrast of your particles in the modulus channel. If you need further help, you can send
-
Most likely you have a too high deflection sensitivity, you can try reducing it and modulus image would back to normal. Ang Li