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Images with James Webb’s NIRCam instrument show giant, fiery-colored clouds of charged particles emitting trihydrogen cation.

A team of São Paulo-based researchers have found incorporating formamidinium cations into methylammonium-based lead iodide perovskite films increases the durability of perovskite solar cells when ...

Jupiter's auroras also produce a rare type of hydrogen known as the trihydrogen cation. Normal hydrogen gas is composed of two hydrogen atoms, thus there are two protons in the nucleus, which are ...

Nichols and his colleagues analyzed infrared light emitted by a positively charged molecule called the trihydrogen cation (H3+), which can form in auroras.

As they'd done with Neptune, the team was attempting to gather emission data from the trihydrogen cation, which shines brightly in infrared and is often produced by auroras.

In Addition, the team zoomed in on aurora-made trihydrogen cation (H3+) emissions, and they reported that the variations observed in the H3+ emissions are way more than was previously imagined.

The team found emissions of trihydrogen cation (H3+) more variable than previously estimated and discovered something new and mysterious about Jupiter's auroras. The brightest areas seen by Webb's ...

Knowing how quickly trihydrogen cation dissipates matters to scientists because of the role it would play in how Jupiter’s upper atmosphere is heated and cooled.

Using Webb’s recent observations of Jupiter’s aurora, the scientists studied emissions from a molecule called trihydrogen cation.