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Research in Spacecraft Propulsion Technology

Summary

The Propulsion Research Center at NASA/MSFC identifies, researches and develops technologies for use in "in-space" propulsion of spacecraft, typically for interplanetary missions, such as going to Mars. Research scientists there have been working with electric propulsion (EP) engines which, currently, are best suited to fast propulsion of lightweight craft.

Devices are built and tested in specialized laboratory facilities to demonstrate the technologies which may potentially go into future EP engines. Most of these devices generate plasmas of one sort or another, therefore diagnostic measurements of the working plasmas are an important component of the programs. In recent months, one researcher working with these diagnostic measurements has been using Origin as a graphics package for the presentation of research results, mainly for publication in open literature.


Creating the Origin Graph

A typical graph created during the analysis of a plasma is shown. The graph employs multiple axes, or layers, to properly visualize the data. In addition, the area fill feature for Origin's Line plots has been utilized to create bands marking data error bars. Finally, several text labels, including a graph and several axis and layer titles, were included to increase the readability of the graph. Note that Greek symbols are included in the axis titles.

An example of a symbol being entered into an Origin text label using the Symbol Map while in in-place edit mode
Figure 1: An example of a symbol being entered into an Origin
text label using the Symbol Map while in in-place edit mode

To create the graph shown, three separate graphs were first created in separate layers in a single graph window and aligned using the Snap Layers (Axes) to Grid feature. The graphs created were:

  • A single layer graph called "potential" - To complete the graph, the top X and right Y axes for the layer were enabled, text labels were added, and a legend was included. The symbols seen in the various labels were inserted using Origin's Symbol Map (Figure 1), accessible while in in-place edit mode.

  • A two layer graph called "1.48 kV radial densities" - This graph was augmented in the same ways as the first graph. However, the right Y axis for the first layer did not need to be enabled since a linked right Y axis [layer] was added. This graph is known as a Double-Y graph. The layer represented by the left Y axis contains the Total radial density data, while the layer represented by the right Y axis contains only the Kinetic radial density data. Notice that the Total data and the Kinetic data are superimposed even though they differ in magnitude by more than a factor of 10. In addition, arrow objects were added to label directly specific data plots.

  • A single layer graph called "transverse profiles" - This graph was refined by enabling the Fill Area Under Curve option in the Plot Details dialog box for several of the data plots (Figure 2). Once enabled, various Fill Colors and Patterns were set. Note particularly that the "blank" areas under the filled bands were created by using a fill color which matches the background. In addition, like the first graph, the top X and right Y axes were enabled for the layer. Finally, several text labels and arrows were again included.

Origin's Plot Details dialog box showing the Fill Area Under Curve check box
Figure 2: Origin's Plot Details dialog box showing the Fill Area Under Curve check box

  The Graph Page) level in the Plot Details shows the Dimensions group defined using the pixel Unit setting.
Figure 3: The Graph Page) level in the Plot Details shows the Dimensions group defined using the pixel Unit setting.

Defining a Pattern

Finally, the researcher established, heuristically (through trial and error), a sequence of steps for producing similar, journal-quality figures.

These steps included setting the page size in pixels to give a repeatable bit map size (Figure 3) and using the Export Page function to create (600 dpi) PDF files, which were subsequently converted using Adobe® Photoshop® into other standard formats.

Note: Although not used here, the researcher often employs the spline connection type for interpolation of sparse data. This feature can be found in the Axis dialog box.

Biography
Chris Dobson is a research scientist at the Propulsion Research Center at NASA/MSFC.


The graph shown is property of the Journal of Applied Physics.
C. C. Dobson and I. Hrbud, J. Appl. Phys. 96, 94 (2004).


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