Baily's Beads, Prominences, and Chromosphere in Total Solar Eclipse Progression This composite image was my primary goal for the 2024 total solar eclipse. What I didn't foresee was the effort required to get the shots. The weather forecast was the problem, and the over 1,000 miles added to the rental car tell only part of the story that included a day-prior relocation from an ideal shooting location in central TX to north central AR — storm unchasing. Fortunately, the clear sky chase was successful, and the second-darkest exposures from the C1 brackets described in the Total Solar Eclipse Photography Plan provided the optimal exposures for this image. The images in this composite were captured 1-second apart, illustrating how fast the favorite Baily's Beads stage passes. The individual images are straight out of Lightroom with the default settings, with slight shadow brightness and clarity increases added to the final image in PS. The left and right-side images are independently rotated to enable a horizontal format that retains clear visibility of the progression. 840mm f/5.6 1/5000s ISO 100 |
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Total Solar Eclipse Phase Progression Most of us photographing a total solar eclipse capture images throughout the partial phases. While partial eclipse images are interesting, I quickly get bored of viewing circles with a bite out of them, including mine. Create a progression composite image that tells the "full" story, and you will have my attention. Thus, such an image was one of my goals for the 2024 total solar eclipse. Aside from the center row, these images were captured 2.5 minutes apart. Even with a modest crop from an 840mm focal length, the individual Sony Alpha 1 images are large, and 77 of them in a single PS file created an unacceptable processor load. A 50% overall size reduction made the processing tolerable, and this image still weighs in at over 266 MP, enough resolution to print massive. 840mm f/5.6 1/5000s ISO 100 |
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Total Solar Eclipse with Corona The goal for the middle portion of the total eclipse was to capture a wide range of bracketed exposures to pull out the distant corona. This image shows the result of one optional HDR processing technique. The exposure bracketed images were loaded as Photoshop layers and manually aligned. Next, the opacity of each layer was reduced, allowing the next-lower layer to show through. The lowest included layer's opacity remains at 100%. This image was modestly cropped from the top right to center the sun, but it shows an expected result from the 840mm focal length. This angle of view fills a substantial portion of the frame with the corona. Want to contain the corona streamers within the frame? Do not use the brightest exposures in the HDR stack. The center image in the Total Solar Eclipse Phase Progression image illustrates this strategy. 840mm f/5.6 1/5s ISO 100 |
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Diamond Ring, Solar Eclipse The diamond in the ring is a tiny, overexposed portion of the sun peeking around the moon. The size of the diamond is determined by the exposure and the amount of sun shining through. Such dramatic overexposure usually creates a bit of flaring, and the appearance of the flaring varies between lenses and the aperture opening in use. In general, the more the aperture is stopped down, the more dramatic the flare, including diffraction spikes coming off of the diamond. The sun's corona outlines the ring. 840mm f/5.6 1/640s ISO 100 |
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