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Scientific American on Quantum Encryption
prostoalex writes "Scientific American claims that advances in commercially available quantum encryption might obsolete the existing factorization-based solutions: "The National Security Agency or one of the Federal Reserve banks can now buy a quantum-cryptographic system from two small companies - and more products are on the way. This new method of encryption represents the first major commercial implementation for what has become known as quantum information science, which blends quantum mechanics and information theory. The ultimate technology to emerge from the field may be a quantum computer so powerful that the only way to protect against its prodigious code-breaking capability may be to deploy quantum-cryptographic techniques.""
I think [..] Eventually, we will have quantum computers capable of brute-forcing even quantum encryption...
Well, you think wrong. Quantum encryption cannot be 'brute-forced'. Because it's not 'encryption' in the conventional sense but rather 'secure transmission'. The data is not encoded, but rather transmitted in a way which makes eavesdropping impossible. Since you can't intercept any 'coded message', there is nothing for you to brute-force.
And this holds as long as what we know of quantum mechanics holds.
(More specifically, the Bell inequality. Which was verified in the famous Aspect experiment.)
So no, nothing in quantum physics is going to invalidate quantum encryption. And I wouldn't get my hopes up for future theories, either, because this 'wierdness' of quantum mechanics so well-verified experimentally that it'd be unlikely that any future theory would change it. (But hopefully explain it)
God, I love when slashdot covers advanced scientific stuff... then people like you who have no idea what they are talking about get to be mod'ed Insightful!
OK, there's two very different uses of quantum technology when applied to crypto problems:
1. If you had a quantum computer some problems like factorization become easy; therefore things like RSA would be instantly decryptable. The gotcha is that the current "state of the art" for quantum computers are still absolutely tiny and there are HUGE engineering challenges towards building one large enough to factor a real key (I think they're at the point now where they can factor numbers like "12"... so they have a bit of scaling before they can start attacking 300-digit numbers)
Of course there could be a massive breakthrough in quantum computer design tomorrow which would throw the whole crypto world on its head. That makes this area really interesting for crypto people.
Does NSA secretly have a quantum computer that can do that? I'd say its extremely unlikely... I'm sure they have people looking into it but they would have to be AMAZINGLY far ahead of the public research community to have actually built a full-size one.
2. What this article is talking about is "quantum encryption" what's really "quantum" about it is making an untappable fiber line by signalling using the characteristics of single photons. By using Heisenberg's uncertainty principal you can make it impossible for anyone to tap the line (and thus observe the photon states) without also randomizing the bits. It's really hard to get your head around but it actually works.
Note that nowhere here did we use a "quantum computer"... this is all using technology that exists today (obviously, since you can buy it)
So basically even if your adversary has a trillion dollar budget to attack you with they CANNOT tap that fiber line without destroying the communication in the process. It's physically not possible with any technology.
So unless the NSA has a whole undiscovered field of physics that the world doesn't know about they don't have "quantum decyption" As we understand physics today it's literally impossible to build such a device.
However, it is perfectly reasonable to borrow a large sieve with a water tray - which both work on all the grains simultaneously - and then the job becomes doable in hours.