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XPMPro™ 2.0 will get a face lift and reorganized controls to make the operation more intuitive, enabling even beginning users to access and utilize the advanced functionality that has made XPMPro the favorite of advanced researchers. |
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When enabled, acquisition board will run at its maximum sampling rate and average all readings between pixels. At present XPMPro only takes one reading per pixel. Oversampling will yield better S/N, especially when scanning slowly. |
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When enabled, software will automatically correct for drift in all three axis between multiple spectroscopy curves taken at the same location. At present XPMPro can correct for drift between curves only in the Z axis. Exact location of spectroscopic measurement will be stored with each curve. |
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This function will save all open windows in the DAW and store it in one file, called a session. When you reopen that session, all windows will return to their original position so you can start where you left off processing and analysis. This session file can also be emailed to collaborators. |
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. Maximum # of samples increased from 256 to 1 MS.
. Data is acquired while using Drag/Move Tip functions.
. Data can be acquired during Pulse operation
. Settings moved to oscilloscope for easier operation. |
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This new spectroscopy acquisition mode allows the user to program an experiment where any two parameters, such as Z position and bias voltage can be ramped between end points at any predefined rate, stay at the end point for a predefined period (dwell time), and then continue to the next set of end points, all the while collecting data on any number of input channels. Ten steps in this process can be programmed to be automatically acquired at any number of points in an image. |
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. Settings controls attached with window
. Maximum number of readings has been increased to 8192k, providing 50 mHz resolution with a bandwidth of 125 kHz.
. Opt acquisition module provides up to 2 MHz sampling
. Display averages spectrums in real-time, providing improved speed and resolution.
. All settings have been moved to the Power Spectrum window for ease of operation. |
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When using the feature tracking capability, the position of the feature on the surface is recorded as a function of time. A new display mode allows this position to be shown as a function of time or displayed overlaid on the image where it was acquired. |
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Dropped atomic features during manipulation routines are no longer a problem. RHK has improved upon its previously released design. The updated atomic manipulation routine improves productivity by up to 100 fold by quickly and automatically locating lost features. |
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A new optional module allows acquisition to be acquired at up to 2 MHz on each of two channels. In additional to allowing faster imaging, the higher bandwidth can also be utilized by the oscilloscope and spectrum analyzer functions. This module can be added to any existing SPM1000 system running XPMPro Version 2.0.
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The software has been optimized to allow much faster data acquisition. For example, up to twelve images of 128x128 resolution can now be acquired per second (six images in each scan direction).
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This function displays the running average of all curves taken at each point in real time in additional to the display of each individual spectroscopy curve.
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In addition to showing the raw data for each curve, real-time display of calculated derivative and/or second derivative can also be shown.
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The analysis and processing sections of the software have been upgraded to provide much faster and efficient processing and visualization.
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Tight integration of the PLLpro into XPMPro greatly improves ease of use.
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All configuration functions of PMC100 are now set inside of XPMPro instead of through separate application.
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