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JWST reveals its first direct image discovery of an exoplanet

(www.smithsonianmag.com)
342 points divbzero | 2 comments | 27 Jun 25 17:44 UTC | HN request time: 0.408s | source
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GMoromisato ◴[27 Jun 25 23:00 UTC] No.44401068[source]
In case anyone is wondering, we are (sadly) very far from getting an image of this planet (or any extra-solar planet) that is more than 1 pixel across.

At 110 light-years distance you would need a telescope ~450 kilometers across to image this planet at 100x100 pixel resolution--about the size of a small icon. That is a physical limit based on the wavelength of light.

The best we could do is build a space-based optical interferometer with two nodes 450 kilometers apart, but synchronized to 1 wavelength. That's a really tough engineering challenge.

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GolfPopper ◴[28 Jun 25 00:05 UTC] No.44401398[source]
We can do better than that! Using the Sun as a gravitation lens[1], and a probe at a focal point of 542 AU, we could get 25km scale surface resolution on a planet 98 ly away. [2] This would be an immense and time-consuming endeavor, but does seem to be within humanity's current technological capabilities.

1. https://en.wikipedia.org/wiki/Solar_gravitational_lens

2. https://www.nasa.gov/general/direct-multipixel-imaging-and-s...

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JumpCrisscross ◴[28 Jun 25 00:20 UTC] No.44401445[source]
Do we have a recent cost estimate?
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1. thiht ◴[28 Jun 25 09:11 UTC] No.44403288[source]
And more importantly, a story points estimate (t-shirt sizing is obviously XL)
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2. ainiriand ◴[28 Jun 25 10:59 UTC] No.44403770[source]
Lets get an epic ticket ready.