Fredkin Gate Breakthrough Brings Quantum Computing Within Closer Reach

An anonymous reader quotes a report from PCWorld: Quantum computers are based on atomic-scale quantum bits, or qubits, that can represent both 0 and 1 simultaneously. Realizing that potential, however, depends on the ability to build working quantum circuits. The quantum version of the classic Fredkin gate exchanges two qubits depending on the value of the third. It could be a key component of quantum circuitry, but because of the complexity involved, no one has ever managed to build one in the real world -- until now. Whereas the Fredkin gate typically requires a circuit of five logic operations, researchers from Griffith University and the University of Queensland used the quantum entanglement of particles of light to implement the controlled-SWAP operation directly. Essentially, the scientists demonstrated how to build large quantum circuits directly, without having to use numerous small logic gates. That, in turn, puts real quantum computers within closer reach.

Spooky confusion at a distance.

[Tablizer]

I give up, quantum stuff makes sorcery sound logical in comparison.

Too bad Einstein's not still around; maybe he could find a more down-to-earth or simpler explanation. He seemed to be the only prominent one questioning that something seems really out of whack, as if we are missing a yuuuuuge piece of the puzzle.

He solved the ether weirditity by plugging in relativity. Similarly, maybe the probability and multi/ghostiverses games will fade away when the equivalent of relativity is applied to quantum stuff.

Maybe particles are like sperm in that when one photon is apparently emitted, there's really many particles emitted, and the first one to hit (react) shuts off the other particles so that they are invisible, almost like neutrinos, so that we don't detect them.

Thus, the interference pattern really *is* a wave; it only looks like a lone particle upon detection because the others cloak. Well, I'm rambling, but you get the idea: there's a BIG IDEA out there to be discovered...

Re: Spooky confusion at a distance.

The problem is that QM is straight forward if you have high school calculus plus some math, mostly notation, that would fit within a small appendix. Things like the particle wave duality aren't that mysterious or a problem at all if you can work out actual QM instead of trying to contemplate a bad analogy. A large amount of the mysticism and confusion is not there in what is a sophomore level class. Most of the problems people think make QM confusing comes from trying to make math-free analogies connecting to everyday experiences. This isn't unique to quantum, as you can make classical physics riddles that even physicists will get wrong using intuition, but can be worked out straightforwardly using a formal approach. This is not to say that there is a lack of questions still left even at the formal level, and there is always room for more simpler explanations. But like many things in life, you can't expect everything to be reducible to a level you can just skim through in a couple of minutes, and understanding some things in this world takes more dedication than half-assing. If you have some math background, even rusty, you can get through a couple chapters of an actual textbook instead of reading numerous popsci books.