For one, how do we accentuate these outermost structures and filaments?<\/p>
With this in mind, we can get creative to ensure prominences are highlighted.<\/p>
One way is to turn a solar image on its head. I channelled Salvador Dal\u00ed to create what I call the \u2018Ward-Solar-Transform\u2019 effect.<\/p>
This turns our Sun’s disc inside out to place solar prominences centre stage.<\/p>
Before applying this technique, bear in mind that it will highlight any shortcomings in your raw data, so only use the sharpest, high-resolution data.<\/p>
Our start image (Before image, above) was a combination of the best of six bursts of 2,000 16-bit frames.<\/p>
This generated plenty of data for \u2018lucky image\u2019 processing, a method that increases our chances of getting frames that are minimally affected by Earth\u2019s atmosphere.<\/p>
Here, the sharpest 3% was selected, aligned and stacked in AutoStakkert!<\/p> We first opened our start image in Photoshop and made sure it was in 16-bit RGB format (click Image > Mode > RGB color > 16 Bits\/Channel<\/em><\/strong>).<\/p> We then colourised our grayscale image (although the transform can be performed without this step).<\/p> In this example, we created a coloured gradient that included black, dark red, yellow, orange and white tones to reflect our preferred solar colours.\u00a0<\/p> We created this gradient using the Gradient Map adjustment.<\/p> First, we added a gradient adjustment layer by clicking Layer > New Adjustment Layer > Gradient Map > Gradient Map 1<\/em><\/strong>.<\/p> An image layer and adjustment layer appeared.<\/p> Clicking on the gradient bar in the Gradient Map window (image above) displayed the Gradient Editor menu.<\/p> Here, we could create a custom gradient that included colours of our choice by clicking on the anchor points below the gradient bar (image above).<\/p> The Color Picker window appeared, which allowed us to select a colour for each anchor point.<\/p> We did this for red, then orange and yellow, clicking on a new anchor point each time that we wanted to introduce a new colour to the gradient bar.<\/p> Our grayscale image was now colourised (image above). \u00a0<\/p> Once we were happy with our colours, it was time to apply a transform to turn the Sun inside out!<\/p> Your image should be perfectly centred on the Sun in a square-shaped format.<\/p> If it isn\u2019t, use the Photoshop crop tool by clicking the Crop icon in the adjustment menu (see image above) and dragging the tool to ensure the Sun is placed in the middle.<\/p> Any other format will warp your \u2018solar horizon\u2019 after you’ve done the transform.\u00a0<\/p> Next, we clicked on and applied the following filter to the image layer in Photoshop: Filter > Distort > Polar Coordinates > Polar to Rectangular<\/em><\/strong>.<\/p> This converted our normal circular solar disc into a rectangle shape, with black space positioned below it (image above).<\/p> Next, we rotated this image by clicking Image > Image Rotation > 180\u00b0<\/em><\/strong> so that the \u2018space\u2019 part of our image appeared on the top.<\/p> We did this so that once we\u2019d completed our transform, the Sun pixels would surround the space pixels in a doughnut shape, placing them at the centre.<\/p> To complete this transform, we converted the image back to polar coordinates, clicking Filter > Distort > Polar Coordinates > Rectangular<\/em><\/strong> to Polar.<\/p> We now had an image with space at the centre and the Sun\u2019s surface at the periphery (image below).<\/p> This transform can cause significant edge distortion of the original image \u2013 shown by stretched and blurred pixels (image above).<\/p> Less-than-sharp data will, therefore, be particularly noticeable at this stage. You can crop the image again to remove these outer distorted pixels.<\/p> The better your data, the less you\u2019ll need to crop at this final step.<\/p> Rectangular or square crops work equally well at this stage and will depend on the solar features visible.<\/p> Flattening the adjustment layers (click Layer > Flatten Image<\/em><\/strong>) and saving the result (click File > Save As<\/em><\/strong>) completes our process.<\/p> You can see my final inside-out Sun at the top of the page.<\/p>![\"Peter](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2024\/05\/inside-out-sun-image.jpg\")
Getting started<\/strong><\/h2>
First colour, then flip<\/strong><\/h2>
![\"inside](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2024\/05\/inside-out-sun-image-step-01-1024x771.jpg?fit=800%2C602\")
<\/figure>Cropping and filtering<\/strong><\/h2>
![\"inside](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2024\/05\/inside-out-sun-image-step-02-1024x999.jpg?fit=800%2C780\")
<\/figure>Sharpening<\/strong><\/h2>
![\"inside](\"https:\/\/c02.purpledshub.com\/uploads\/sites\/48\/2024\/05\/inside-out-sun-image-step-03-1024x817.jpg?fit=800%2C638\")
<\/figure>3 quick tips<\/strong><\/h2>