© 2024 All Rights reserved WUSF
Play Live Radio
Next Up:
0:00
0:00
0:00 0:00
Available On Air Stations

How 2 astrophotographers teamed up to capture a stellar image of the moon

It took astrophotographers Andrew McCarthy and Connor Matherne over nine months to edit their final image. It's comprised of more than 200,000 shots pieced together to make a single photograph.
Andrew McCarthy and Connor Matherne
It took astrophotographers Andrew McCarthy and Connor Matherne over nine months to edit their final image. It's comprised of more than 200,000 shots pieced together to make a single photograph.

Two astrophotographers have teamed up to produce an out-of-this-world photo of the moon, capturing over 200,000 shots to create a single image.

Andrew McCarthy and Connor Matherne collaborated last November to push their photography skills to the limit. Their finished product was posted online Saturday, and is currently gaining lots of attention on Reddit.

The two stargazers first connected over Reddit and then Instagram, sharing and commenting on each other's work over the past three or four years. After recognizing one another's strengths in photography, they decided to team up for a photoshoot of Earth's moon.

"When he and I put our heads together we were able to make something a little off brand for both of us, which is cool," McCarthy told NPR. "The whole thing is assembled like a mosaic, and each tile is made up of thousands of photos."

McCarthy said he specializes in detailed photographs, taking tens of thousands of photos to capture the geographical features on the moon's surface. Matherne, who prefers to shoot deep space photos, specializes in colors.

Over the course of a single evening, McCarthy shot over 200,000 detailed photos of the moon from Arizona, while Matherne shot another 500 images from Louisiana to capture color data. They combined their work by stacking the photos on top of one another to create a detailed image of the moon in spectacular color.

"Andrew aimed purely for the detail side whereas I aimed purely for the color side," Matherne said. "That allowed us to get the full moon."

To capture all of the color and details on the moon's surface, Andrew McCarthy and Connor Matherne focused on different aspects of the shoot. McCarthy shot over 200,000 images focusing on the moon's details and Matherne shot another 500 to capture the vibrant colors.
/ Andrew McCarthy and Connor Matherne
/
Andrew McCarthy and Connor Matherne
To capture all of the color and details on the moon's surface, Andrew McCarthy and Connor Matherne focused on different aspects of the shoot. McCarthy shot over 200,000 images focusing on the moon's details and Matherne shot another 500 to capture the vibrant colors.

They spent the next nine months bouncing edits and ideas off one another about the edits, using photo editing programs to help produce the best image possible.

Matherne and McCarthy said though their work is technical, it's not out of reach for other photo enthusiasts. All that's required is a camera, tripod and a star tracker. Aspiring astrophotographers can take their work to the next level by purchasing a telescope, but the two said it's best to develop basic photo skills before taking that next step.

But astrophotography isn't as simple as point and shoot. One of the most difficult parts of the job, McCarthy said, is practicing patience.

A successful shoot relies heavily on clear skies and limited light pollution. Most nights McCarthy walks away empty handed, but that makes successful shoots all the more meaningful.

"If you can't handle that, then you're not going to get to the point where you're getting these great pictures," he said. "Anybody can do it, but it takes a special temperament."

Copyright 2022 NPR. To see more, visit https://www.npr.org.

Dustin Jones
Dustin Jones is a reporter for NPR's digital news desk. He mainly covers breaking news, but enjoys working on long-form narrative pieces.
You Count on Us, We Count on You: Donate to WUSF to support free, accessible journalism for yourself and the community.