The first alien object on Earth It is a fact; At least this is what the Harvard physics professor assured today Tuesday Avi Leb, reporting that the hundreds of tiny fragments found on the floor of the Pacific Ocean they are not from our own solar system.

The hundreds of fragments came from a crashed object in the Pacific Ocean in 2014and the physicist spent two weeks searching for them in the hope of proving that extraterrestrial life exists.

The fragments came from a meter-sized object that crashed off Papua New Guinea in 2014, which Lamb claims that it was an alien craft.

Although the announcement does not confirm the existence of aliens, Lemb speaks of a historical discovery “because it represents the first time humans have touched material from a large object that reached Earth from outside the solar system.”

Lamb and his science team traveled to a site where the IM1 meteorite is believed to have crashed nearly a decade ago.

Harvard scientists spent years working closely with the US military to locate the impact zone near Papua New Guinea, analyzing data to determine if and when the object fell from space.

The fragments are rich in beryllium, says Avi Leb

In April 2022 the US Space Administration confirmed that the 46 cm wide meteorite, came from another solar system, making him the first known “interstellar visitor to Earth”. And this, according to Leb, provides more evidence to support his theory.

Lebb openly believes that aliens have made contact with Earth.

In 2021, the physicist released a book titled “Extraterrestrial: The First Sign of Intelligent Life Beyond Earth,” in which he argued that Oumuamu is not a comet or an asteroid but a light sail – a method of spacecraft propulsion.

Oumuamu was discovered in October 2017 by a telescope in Hawaii, millions of miles away, and was originally thought to be Earth’s first interstellar visitor until 2022.

Lemb and his team they found 700 diameter bullets 0.05–1.3 mm in 26 runs covering a survey area of ​​a quarter of a square kilometer. Data from the analysis showed that the fragments are rich in beryllium, lanthanum and uranium, along with low levels of elements with a high affinity for iron, such as rhenium – one of the rarest elements found on Earth.

The ”BeLaU” elemental abundance pattern does not match terrestrial alloys, nuclear explosion debris, magma of Earth or its Moon or Mars, or natural meteorites in the solar system, he said.