The James Webb Space Telescope, known for its stunning images of the cosmos, has once again captured a peculiar sight: a galaxy resembling a question mark. This cosmic query is not just an amusing oddity; it offers valuable insights into the evolution of galaxies, including those similar to our own Milky Way in its early stages.
This ‘question mark’ galaxy is found within an image of galaxy cluster MACS-J0417.5-1154, a massive collection of galaxies so dense that it warps the fabric of spacetime. This warping, known as gravitational lensing, acts like a cosmic magnifying glass, bending and stretching light as it travels past the cluster. In some cases, this effect can even make the same galaxy appear multiple times in different locations within a single image.
The ‘question mark’ is a result of this gravitational lensing, distorting the appearance of two interacting galaxies. The alignment of Earth, the galaxy cluster, and the target galaxies creates a specific type of lensing called a hyperbolic umbilic gravitational lens. This alignment makes the two galaxies appear five times within the image, forming the question mark shape.
This unusual phenomenon is not only visually striking but also scientifically valuable. Astronomers have only identified a handful of similar gravitational lensing configurations in the observable universe, making this discovery particularly exciting. It highlights the capabilities of the James Webb Telescope and suggests that we may uncover more of these cosmic oddities in the future.
Beyond the captivating visual, the ‘question mark’ galaxies offer insights into the early universe. The image was captured using Webb’s NIRCam instrument, but the researchers also utilized the NIRISS instrument to pinpoint areas of active star formation within these galaxies, even those located billions of light-years away. This information is crucial for understanding how galaxies evolve over cosmic history.
The galaxies in this image, caught billions of years ago when star formation was at its peak, are remarkably similar to the early Milky Way. They provide a glimpse into the ‘teenage years’ of our own galaxy, a period when it was undergoing rapid growth and development. By studying these distant galaxies, we can gain a better understanding of how our own galaxy formed and evolved into the vast, majestic spiral we know today.
The research on these ‘question mark’ galaxies has been published in the Monthly Notices of the Royal Astronomical Society. This discovery not only showcases the remarkable capabilities of the James Webb Space Telescope but also underscores the vastness and complexity of the universe, constantly revealing new and fascinating phenomena for us to explore.