Chandra Release - July 1, 2026 Visual Description: Milky Way Arms This release features a short video and a series of images, all related to an updated understanding of our home galaxy's structure. By studying rings of X-ray light echoes, researchers now believe that two of the Milky Way's spiral arms may be more distant from the center of the galaxy than previously thought. The updated understanding of the structure of the Milky Way is highlighted in a short video, which compares two artist concept images. In both images, our spiral Milky Way galaxy is shown face-on. It has a bright white core with several arms that spiral out from the center, like long thin clouds corkscrewing counterclockwise. The two longest arms make a full rotation of the spiral galaxy, and curve all the way around to the upper right of the images. The first image in the video shows the previous understanding of the Milky Way. Here, the two longest arms are curled around the core in a fairly tight spiral. In the second image, which represents the updated understanding, the two longest arms are more loosely spiraled. Visually, this means there is more open space between the curving arms, which are further away from the bright galaxy core. The video fades back and forth between the two artist concept images to illustrate the structural differences between the two understandings. These findings are further shown by a static image which overlays the new understanding on top of the earlier understanding. In this artist's concept illustration, dotted lines and different colors are used to differentiate between the two. A team of astronomers made this discovery by studying gamma-ray bursts that bounce off of dust clouds in the galaxy's spiral arms. The resulting rings of X-rays, known as light echoes, were detected and mapped by NASA's Chandra X-ray Observatory and ESA's XMM-Newton. In a supplemental data image, the light echoes resemble concentric arches of neon blue dots trailing across a speckled sky. Identifying the position of the Milky Way's spiral arms through X-ray light echoes has allowed astronomers to use geometry, rather than assumptions about galaxy rotation, to better understand the structure of our galaxy.