No products in the cart.

Hubble Captures Galaxy Cluster

Explore Hubble

Hubble Home
Overview

About Hubble
The History of Hubble
Hubble Timeline
Why Have a Telescope in Space?
Hubble by the Numbers
At the Museum
FAQs

Impact & Benefits

Hubble’s Impact & Benefits
Science Impacts
Cultural Impact
Technology Benefits
Impact on Human Spaceflight
Astro Community Impacts

Science

Hubble Science
Science Themes
Science Highlights
Science Behind Discoveries
Universe Uncovered
Hubble’s Partners in Science
Hubble & Citizen Science
AI & Hubble Science
Explore the Night Sky

Observatory

Hubble Observatory
Hubble Design
Mission Operations
Science Operations
Astronaut Missions to Hubble
Hubble vs Webb

Team

Hubble Team
Career Aspirations
Hubble Astronauts

Multimedia

Images
Videos
Online Activities
e-Books
Sonifications
Podcasts
3D Hubble Models
Lithographs
Fact Sheets
Posters
Hubble on the NASA App
Glossary

News

Hubble News
Social Media
Media Resources
35th Anniversary

More

Online Activities

2 min read
Hubble Captures Galaxy Cluster

NASA’s Hubble Space Telescope captured this scene of galaxy cluster MACS J1141.6-1905 in visible and infrared light.
NASA, ESA, H. Ebeling (University of Hawaii); Image Processing: G. Kober (NASA/Catholic University of America)

Look closely at this image from NASA’s Hubble Space Telescope and you’ll see galaxies of various shapes and sizes clustered together toward the center-left of the image. A few foreground stars shine brightly and are easily distinguished by the spikes that appear to extend outward from each star. These spikes, called diffraction spikes, are the result of how point sources of light (such as stars) bend, or diffract, around the supports for Hubble’s secondary mirror.
Hubble captured this scene of MACS J1141.6-1905 in visible and infrared light. The image includes data from two Hubble observing programs that looked at massive galaxy clusters that shine very brightly in X-rays. Both programs were looking for distant galaxies gravitationally lensed by the cluster. They also wanted to better understand the physical nature of interactions at each cluster’s core. An extra bonus was the addition of Hubble’s visible and infrared observations of these very bright X-ray clusters to its archive.
Hubble’s archive of 1.7 million observations, and counting, is a valuable tool for current and future astronomers. They can mine Hubble’s 36 years of observations and examine the data with new tools, enabling researchers to make new discoveries.
MACS J1141.6-1905 is around four billion light-years away in the constellation Crater (the Cup).

Facebook logo

@NASAHubble

@NASAHubble

Instagram logo

@NASAHubble

Media Contact:
Claire AndreoliNASA’s Goddard Space Flight Center, Greenbelt, MDclaire.andreoli@nasa.gov

Share

Details

Last Updated

May 22, 2026

Editor

Andrea Gianopoulos

Location

NASA Goddard Space Flight Center

Related Terms

Hubble Space Telescope
Astrophysics
Astrophysics Division
Galaxies
Goddard Space Flight Center
The Universe

Keep Exploring
Discover More Topics From Hubble

Hubble Space Telescope

Since its 1990 launch, the Hubble Space Telescope has changed our fundamental understanding of the universe.

Hubble Spectroscopy

Hubble’s Partners in Science

AI and Hubble Science

View Source