Rare green comet last encountered 50,000 years ago swings by Earth
A telescope image shows a green comet named Comet C/2022 E3 (ZTF), which last passed by our planet about 50,000 years ago, Jan. 21, 2023. (Reuters Photo)


A rare green-hued comet that was last seen around 50,000 years ago, has been lurking in the night sky for months and is now due to make its closest pass by Earth and become the most visible to stargazers this week.

The cosmic visitor will swing by our planet at a distance of about 42.5 million kilometers (26.4 million miles).

So, let's take a look at comets in general and this celestial object in particular.

Nicknamed "dirty snowballs" by astronomers, comets are balls of ice, dust and rocks that typically hail from the ring of icy material called the Oort cloud at our solar system's outer edge. One known comet actually originated outside the solar system – 2I/Borisov.

Comets are composed of a solid core of rock, ice and dust and are blanketed by a thin and gassy atmosphere of more ice and dust, called a coma. They melt as they approach the sun, releasing a stream of gas and dust blown from their surface by solar radiation and plasma and forming a cloudy and outward-facing tail.

Comets wander toward the inner solar system when various gravitational forces dislodge them from the Oort cloud, becoming more visible as they venture closer to the heat given off by the sun. Fewer than a dozen comets are discovered each year by observatories around the world.

This comet last passed Earth at a time when Neanderthals still inhabited Eurasia, our species was expanding its reach beyond Africa, big Ice Age mammals including mammoths and saber-toothed cats roamed the landscape and northern Africa was a wet, fertile and rainy place.

The comet can provide clues about the primordial solar system because it formed during the solar system's early stages, according to California Institute of Technology physics professor Thomas Prince.

The green comet, whose formal name is C/2022 E3 (ZTF), was discovered on March 2, 2022, by astronomers using the Zwicky Transient Facility telescope at Caltech's Palomar Observatory in San Diego. Its greenish, emerald hue reflects the comet's chemical composition – it is the result of a clash between sunlight and carbon-based molecules in the comet's coma.

NASA plans to observe the comet with its James Webb Space Telescope (JWST), which could provide clues about the solar system's formation.

"We're going to be looking for the fingerprints of given molecules that we can't access from the ground," said planetary scientist Stefanie Milam of NASA's Goddard Space Flight Center in Maryland. "Because JWST's so sensitive, we're expecting new discoveries."

Using binoculars during a clear night, the comet can be seen in the northern sky. On Monday, it appeared between the Big Dipper and Polaris, the North Star. And on Wednesday, it was positioned to appear near the constellation Camelopardalis, bordered by Ursa Major, the Big Dipper and the Little Dipper.

Finding a remote location to avoid light pollution in populated areas is key to catching a nice view of the comet as it journeys past our planet heading away from the sun and back toward the solar system's outer reaches.