![]() ![]() Read on if you want to learn how to use this template for your own multipanel figures. While this example only has four graphics, the design of the template is modular, allowing for any number of graphics to be included. When you move this anchor, the label and the graphic will move along seamlessly with it, how neat! ![]() The position of these red dots are specified relative to the bottom-left corner of the bounding box (e.g., panel b is at +1cm horizontally, and +5cm vertically). The other addition are the red anchor circles that are linked to a label and an individual graphic. There is a big red bounding box of a size you specify (e.g., 16cm x 10cm), that helps ensure your figure will be the right size for your page. To understand how this multipanel figure was made, however, it is easier to look at it in its draft mode, which includes several red elements that help in the construction of the figure. Below you can see four images (stand-ins for your your pretty results), labelled a, b, c, d. To start with, let’s look at an example multipanel figure created by my template. ![]() If you are interested in making multipanel figures in LaTeX, but don’t know where to start or want to learn a fast and flexible method, read on as I share my technique (the template is available at the end of this post). Some like to generate multipanel figures in the same scripts as their data analysis, others like to get fancy with programs like Adobe Reader or Inkscape, and I use the Tikz package in LaTeX. Creating figures for academic journals is a precise art and scientists have developed a variety of workflows to combine graphs and diagrams into a single figure. ![]()
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