The discovery that helium and iron can mix at the temperatures and pressures found at the center of Earth could settle a long ...

Primordial helium from the beginning of the solar system may be stuck inside Earth's solid core, new research suggests. The findings could have implications for a long-standing debate about how ...

In fact, solid iron at high temperature and pressure could contain up to 3.3% helium, the researchers reported Feb. 25 in the journal Physical Review Letters. The researchers discovered this ...

Helium, used to pressurize rocket fuel systems, is often a source of technical complications. However, a team of Chinese scientists has managed to harness its properties to increase the efficiency of ...

Discover the best cryptos to buy this month, featuring Qubetics, Injective, and Helium—three projects primed for success in ...

detailed how injecting helium into traditional solid rocket motors via micron-scale pores triggers a thrust surge. Helium does not burn, but optimal ratios of helium to combustion gas (1:4 ...

Helium normally has trouble bonding with other ... Its outer core is mostly molten iron (and some nickel), while its inner core is a ‘solid’ iron orb (with traces of nickel).

Scientists have transformed light into a supersolid, a breakthrough merging solid and liquid properties in quantum physics.

Its outer core is mostly molten iron (and some nickel), while its inner core is a ‘solid’ iron orb (with traces of nickel).

Discover the groundbreaking transformation of light into a supersolid, a unique state of matter that exhibits both solid and ...

Light was turned into a quasiparticle that simultaneously behaved like a crystal and wave.