This research was published in Nature Communications. The researchers haven't gone as far as measuring the states of electrons themselves, meaning there could still be all kinds of interference to iron out.īut having strong evidence of the possibility of teleportation between electrons is an encouraging sign of the possibilities open to future engineers. Of course, we're still some way off replacing photons with electrons for this kind of quantum information transfer. "Our work shows that this can be done even without photons." "We provide evidence for 'entanglement swapping,' in which we create entanglement between two electrons even though the particles never interact, and 'quantum gate teleportation,' a potentially useful technique for quantum computing using teleportation," says Nichol. This latest advance helps bring the process closer to technological reality, overcoming hurdles that would connect quantum weirdness with existing computing technology. The variations in the characteristics of the particles of matter give rise to these states of matter.
Solid, liquid, gaseous, and plasma can be found in our everyday life. Answer (1 of 5): Electrons, protons, and neutrons are the particles that make up matter.
When we look around us, we notice a wide range of objects in all shapes, sizes, and textures. The researchers had previously shown that this exchange can be manipulated without needing to move the electrons at all, presenting a potential method for teleportation. States of matter are the different forms that various phases of matter take on.
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