For astronomers peering into the depths of the universe, Christmas came a little early this year.

Using data from the James Webb Space Telescope, NASA released an image last month of a Christmas Tree Galaxy Cluster, a winking collection of galaxies 4.3 billion light-years from Earth. And last week, an image of Cassiopeia A, the remains of a star that exploded 340 years ago, was also unveiled by the first lady, Jill Biden, as part of a new White House advent calendar.

These images and others follow a long tradition of astronomers and other stargazers connecting the season of light with cosmic phenomena occurring light-years from Earth. But there is genuine scientific wonder involved in some of these festive observations.

Underlying the Christmas Tree Galaxy Cluster was a detection by astronomers of 14 stars that flicker over days or months — like the lights on a Christmas tree.

“Seeing an individual star in a faraway galaxy is a big deal,” said Haojing Yan, an astronomer at the University of Missouri who led the study. “Almost like a miracle,” he added.

It’s not the first time distant stars have been detected, but it used to be a rare treat. “With Webb, this has become routine,” said Rogier Windhorst, an astronomer at Arizona State University who was involved in the discovery.

The observations are possible because of layers of gravitational lensing, an effect by which the gravity of structures in the universe distorts and magnifies the light of objects in the background, making them visible to astronomers. The flickering of the stars is a result of those “lenses” moving in and out of focus.

Dr. Windhorst notes that Earth and the sun are about as old as the light arriving from this twinkling cluster, which, at the time that light was emitted, was already 9 billion years old. Data about such distant stars helps astronomers compare the makeup of ancient galactic neighborhoods with those that are nearer to us, and how our solar system fits into what Dr. Windhorst calls the cosmic circle of life.

Supernova remnant Cassiopeia A.Credit…NASA, ESA, CSA, STScI, Danny Milisavljevic (Purdue University), Ilse De Looze (UGent), Tea Temim (Princeton University)

Unlike the Christmas Tree Galaxy Cluster, Cassiopeia A is a lot closer to home. Scientists have long studied the violent stellar explosion and others like it to figure out their role in cosmic evolution.

“They help galaxies grow,” Danny Milisavljevic, an astrophysicist at Purdue University who studies Cassiopeia A, wrote in an email. Supernova remnants also create the elements needed to sustain life, like “the oxygen we breathe, the iron in our blood, the calcium in our bones,” he added.

At 11,000 light-years from Earth, Cassiopeia A has been observed by a variety of space telescopes in visible, X-ray and infrared wavelengths. But the Webb’s new infrared vision affords a better view.

In April, NASA released an image of the supernova remnant using the telescope’s mid-infrared instrument. The latest snapshot makes use of the Webb’s near-infrared camera, which captured gas, dust and molecules radiating at warmer temperatures.

The James Webb Space Telescope’s mid-infrared image of Cassiopeia A was released in April. Credit…NASA, ESA, CSA, D. Milisavljevic (Purdue), T. Temim (Princeton), I. De Looze (Ghent University). Image Processing: J. DePasquale (STScI)

The pink and orange structures, enveloped in smoky material against a glittering backdrop of stars, resemble an ornament hanging from a tree branch.

“Two years ago, Webb launched flawlessly on Christmas morning,” Dr. Milisavljevic said. “At the time I thought it was the best Christmas gift ever.” But the telescope, he added, “is the gift that keeps giving.”

Long before the Webb launched, astronomers often found seasonal spirit in space.

In 2008, the European Southern Observatory shared an image of a cluster of stars resembling the sparkling trinkets you might put on a Christmas tree. Captured by La Silla Observatory in Chile, the cluster is scattered among crimson clouds of gas. At the bottom of the image is the aptly named Cone Nebula, a star-forming region about 2,500 light-years from Earth.

A bubble known as SNR 0509-67.5, the visible remnant of a stellar explosion in the Large Magellanic Cloud about 160,000 light-years from Earth.Credit…NASA, ESA, and the Hubble Heritage Team (STScI/Aura
NGC 2264, an area of sky that includes the sparkling blue baubles of the Christmas tree star cluster and the Cone Nebula, captured by La Silla Observatory in Chile.Credit…ESO

The Hubble Space Telescope from NASA has also spread the holiday cheer. In 2010, the space agency released an image of a red bubble that looked like an ornament floating amid the stars.

That bubble is gas blasted away at millions of miles an hour by a supernova. Astronomers think the explosion was triggered by a white dwarf — the core of a star that has run out of fuel — gorging on material from a neighboring star.

One year later, the Hubble dropped a breathtaking image of a cosmic snow angel: a star in our galaxy flanked by wispy blue “wings” of hot gas. Nestled inside a stellar nursery, this region is home to hundreds of brown dwarfs, objects that don’t accrete enough material to form into a star.

Even the cosmos is wishing you a happy holidays.

A Hubble holiday angel, Sharpless 2-106. Its outstretched “wings” are twin lobes of superhot gas stretching outward from the central star.Credit…NASA, ESA, and the Hubble Heritage Team (STScI/AURA)
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