The small, rocky, icy body, estimated to be around 1 km in diameter, was discovered in March 2022 by the Zwicky Transient Facility (ZTF) astronomical sky survey program which operates the Samuel-Oschin Telescope at the Palomar Observatory, in California.
Detected as it passed through Jupiter's orbit, the comet is currently heading towards the Sun and will reach its perihelion, or its closest point to the Sun, on January 12, according to astronomers' calculations. .
The celestial object will then be "10% further" from the Sun than the Earth is (about 150 million km), Nicolas Biver, of the Paris-PSL Observatory, told AFP.
When a comet approaches the Sun, the ice contained in its nucleus sublimates and lets out a long trail of dust reflecting the light of the Sun.
It is this shiny hair that we will be able to observe from Earth, as "C/2022 E3 (ZTF)" comes towards us.
The comet will reach the peak of its brightness "when it is closest to Earth", explains Thomas Prince, professor of physics at the California Institute of Technology, who works for ZTF.
The phenomenon will however be less spectacular than during the passage of its congeners Hale-Bopp (1997) or Neowise (2020), much larger.
The star will be easily spotted with a good pair of binoculars, and perhaps even with the naked eye during part of the night, under a sky without too much Moon and free from light pollution.
"We can have a good surprise and see an object twice as bright as expected," hopes astrophysicist Nicolas Biver.
Scrutinized by the James Webb
The best viewing window should be the weekend of January 21-22 and the week after.
Photo provided by NASA on January 6, 2022 showing comet C/2022 E3 (ZTF) discovered in March by the Zwicky Transient Facility program © Dan Bartlett / NASA/AFP
During this period, the comet will pass between the constellations of Ursa Minor and Ursa Major.
Before diving into the southern hemisphere and heading back to the confines of the solar system, its probable cradle.
According to current models, comets come from two reservoirs: the Kuiper belt, beyond the orbit of Neptune, or the Oort cloud, a vast theoretical zone located up to a light year from the Sun, at the limit of its gravity field.
"Based on the inclination of its orbital plane, it would be a long-period comet originally originating from the Oort cloud," Biver said.
The icy visitor is not on his first passage near the Sun: a previous trip had already propelled him towards our regions, about 50,000 years ago.
The comet then went back in the other direction, but did not go as far as the Oort cloud.
This time, she will probably end up being "permanently ejected from the solar system".
His final visit will be an opportunity for scientists to understand a little more about the composition of comets, in particular thanks to observations by the James Webb Space Telescope.
"We are going to observe it from every angle. It is not the comet of the century, but we are happy to be able to observe comets like these every one or two years, because we consider them to be vestiges of formation of the solar system," says Biver.
This "rare visitor" will bring "information on the + inhabitants + of our solar system well beyond the most distant planets", adds Thomas Prince.
© 2023 AFP