No matter how hard you try, you can't be in two places at once. But if you're an electron, popping up in multiple places is a way of life. The laws of quantum mechanics tell us that subatomic particles exist in this superposition of states until they are measured and found to be in just one – when their wave function collapses.
So why can't we do the same party trick as an electron? It seems that once something gets large enough, it loses its quantum properties, a process known as decoherence. That's mainly because larger objects interact with their environment, which forces them into one position or another. Erwin Schrödinger famously pointed out the absurdity of large-scale superposition with the example of a cat that is both dead and alive.
But that hasn't stopped physicists from trying quantum experiments by isolating objects from external influences.
In 2010, a team at the University of California, Santa Barbara, placed a strip of metal 60 micrometres long into a superposition for a few nanoseconds, cooling it to just above absolute zero to shield it from temperature fluctuations. The hope is that more precise experiments could place larger objects, such as a virus, into a superposition, getting us closer to Schrödinger's mythical cat.
But now it looks like there is a more fundamental obstacle: gravity.
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