Caldwell 71

Backyard observers can find this group of stars by using the bright stars Sirius and Canopus as guides.

Distance

4,000 light-years

Apparent Magnitude

5.8

constellation

Puppis

object type

Open Cluster

Caldwell 71
Caldwell 71 is an open cluster, a loosely bound collections of stars. However, it is relatively compact and strikingly spherical, so it is easily mistaken for a globular cluster. The loose open cluster NGC 2451 appears near it, and both clusters can fit in the same field of view with binoculars or a low-power telescope.
NASA, ESA, and T. von Hippel (Embry-Riddle Aeronautical University); Processing: Gladys Kober (NASA/Catholic University of America)

Caldwell 71, or NGC 2477, is an open star cluster. Open clusters are loosely bound collections of stars. However, Caldwell 71 is relatively compact and strikingly spherical, so it is easily mistaken for a globular cluster. It is located roughly 4,000 light-years from Earth in the constellation Puppis. With an apparent magnitude of 5.8, it appears fairly bright in the sky and can be spotted easily with a pair of binoculars. The loose open cluster NGC 2451 appears near it, and both clusters can fit in the same field of view with binoculars or a low-power telescope. Discovered by the French astronomer Nicolas-Louis de Lacaille in 1751, Caldwell 71 is best observed in the Southern Hemisphere during the summer and in the lower latitudes of the Northern Hemisphere during the winter.

Caldwell 71
The ground-based image in the upper right, from the European Southern Observatory (ESO), provides a wide view of the star cluster Caldwell 71 (NGC 2477). Blue and orange outlines show the locations of Hubble’s Caldwell 71 observations using the Wide Field and Planetary Camera 2 (WFPC2).
Ground-based image: ESO/J. Pérez; Hubble images: NASA, ESA, and T. von Hippel (Embry-Riddle Aeronautical University); Processing: Gladys Kober (NASA/Catholic University of America)

This image, showing just a portion of Caldwell 71, is a composite of visible and infrared observations by Hubble’s Wide Field and Planetary Camera 2. The observations were made to study the evolution of cooling white dwarfs (the dense cores left behind after a star has exhausted all of its nuclear fuel) and to investigate the cluster’s Initial Mass Function (IMF) — a tool astronomers use to describe how mass is initially distributed within a population of stars. Using Hubble’s observations, astronomers found that the IMF for Caldwell 71 was the same as the other star clusters they studied.

Star chart for Caldwell 71
This star chart for Caldwell 71 represents the view from mid-southern latitudes for the given month and time.
Image courtesy of Stellarium

Glossary

Apparent Magnitude - The brightness of an astronomical object as seen from Earth, influenced by the object's distance from Earth, its absolute magnitude, and even gas and dust that lie between the object and Earth.

Globular Cluster - A spherical group of stars that are gravitationally bound to each other, with most of the stars concentrated at the cluster’s center.

Open Cluster - A group of stars loosely bound by gravity, destined to be short lived because the gravitational interactions between members are weak enough that stars can be drawn away from the cluster by stronger gravitational forces.

White Dwarf - The core of a dead Sun-like star whose outer layers have been expelled into space.

Explore Hubble's Caldwell Catalog

The following pages contain some of Hubble’s best images of Caldwell objects.

Stars with four diffraction spikes dot the scene against a black backdrop.

Caldwell 1

Also known as NGC 188, this group of stars formed from a large cloud of gas making the stars roughly…

Red cloud of dust with a bright white star in the center of it. Lots of reddish and orangish stars in the background.

Caldwell 2

This shell of gas is expanding outward, away from the dying star within.

Large grouping of bright white, blue and red stars. Lightly colored blue dust surrounds the stars.

Caldwell 3

This barred spiral galaxy was first spotted by British astronomer William Herschel in April 1793 in the constellation Draco.