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michael_nielsen's profile
michael_nielsen
michael_nielsen
michael_nielsen
@michael_nielsen

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michael_nielsen

@michael_nielsen

Searching for the numinous. Co-purveyor of https://quantum.country/ 

San Francisco, CA
michaelnielsen.org
Joined July 2008

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    1. michael_nielsen‏ @michael_nielsen May 24
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      Alice has a data bit, d, which she'd like to send to Bob. Alice and Bob share a pair of random bits (r, r). Alice XORs d onto her half of the random pair, and sends the result d + r to Bob. Bob can then recover d by adding (d+r) to his random bit: d+(d+r) = d (modulo 2).

      3 replies 1 retweet 14 likes
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    2. michael_nielsen‏ @michael_nielsen May 24
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      The interesting thing for us is that the message d+r from Alice to Bob is completely uncorrelated with the data d. In other words, that message tells us nothing whatsoever about the identity of Alice's data. (This is also why it's cryptographically useful, of course!)

      1 reply 1 retweet 14 likes
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    3. michael_nielsen‏ @michael_nielsen May 24
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      We can draw this in a classical circuit representation as:pic.twitter.com/Rw0bIm9Iwo

      1 reply 1 retweet 13 likes
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    4. michael_nielsen‏ @michael_nielsen May 24
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      Here's the natural analogous quantum circuit, replacing the random pair of bits (r, r) by the analogous quantum state (|00>+|11>)/(sqrt 2):pic.twitter.com/2ARuLIXPrM

      1 reply 1 retweet 11 likes
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    5. michael_nielsen‏ @michael_nielsen May 24
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      Now, you can compute the effect of this circuit mechanically - it's just algebra. I won't go through those details now, though the ideas I described yesterday (https://twitter.com/michael_nielsen/status/1131784174203953153 … ) can be used to verify that if the input is |psi> = a|0>+b|1> then the output is a|00>+b|11>:pic.twitter.com/zomapcwdLS

      1 reply 0 retweets 12 likes
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    6. michael_nielsen‏ @michael_nielsen May 24
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      This seems promising: Alice and Bob now share an entangled quantum state with the amplitudes a and b. Can they do something so Bob ends up with the original state a|0>+b|1>?

      1 reply 0 retweets 7 likes
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    7. michael_nielsen‏ @michael_nielsen May 24
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      Unfortunately, Alice can't do it by simply applying a quantum gate - the state will remain entangled. But maybe she can make a measurement of some sort?

      1 reply 0 retweets 7 likes
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    8. michael_nielsen‏ @michael_nielsen May 24
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      Suppose Alice measures her remaining qubit in some basis |m>. The resulting conditional state for Bob is, up to normalization: a<m|0> |0> + b <m|1> |1>

      1 reply 0 retweets 6 likes
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    9. michael_nielsen‏ @michael_nielsen May 24
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      Ahah! This is very promising! If we simply choose the basis |m> to be the equal superposition states |+> = (|0>+|1>)/sqrt 2 and |-> = (|0>-|1>)/sqrt 2 then Bob will get the following conditional states: a|0>+b|1> a|0>-b|1>

      1 reply 0 retweets 7 likes
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    10. michael_nielsen‏ @michael_nielsen May 24
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      That is, Bob's state is just Z^z|psi>, where z is the outcome of a measurement in the |+>, |-> basis.

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      michael_nielsen‏ @michael_nielsen May 24
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      And so the following quantum circuit teleports |psi> from Alice to Bob:pic.twitter.com/AfUe1ncMAa

      4:37 PM - 24 May 2019
      • 10 Likes
      • Malinga Fernando oa Robert Pin Naima zakaria Daniel Houck Bushra Farooqui Spencer Weston ଆଶିଷ ଲୋକନାଥ ପାଣିଗ୍ରାହୀ ~ आशीष लोकनाथ पाणिग्रही
      2 replies 0 retweets 10 likes
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        1. michael_nielsen‏ @michael_nielsen May 24
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          This is, in fact, the standard quantum teleportation protocol!

          1 reply 0 retweets 12 likes
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        2. michael_nielsen‏ @michael_nielsen May 24
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          This leaves something to be desired as discovery fiction. Still, it's a lot of fun, and think it's pretty good for Twitter!

          2 replies 0 retweets 4 likes
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        3. michael_nielsen‏ @michael_nielsen May 24
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          Particularly egregious: it doesn't tell us WHY you might suspect teleportation is possible in the first place. Though I wonder if some quantum person thinking hard about classical one-time pads might have discovered it, largely by following their nose.

          2 replies 0 retweets 9 likes
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        4. michael_nielsen‏ @michael_nielsen May 24
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          Anyway, this kind of discovery fiction can be a lot of fun, and going through this exercise certainly helped me understand teleportation better!

          0 replies 0 retweets 28 likes
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          5. End of conversation
        1. Nicholas Teague‏ @_NicT_ May 25
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          Replying to @michael_nielsen

          For quantum teleportation protocol, the classical channel I believe incorporated from the implementation of the measurement outcomes for X and Z from first two channels as gates into the third channel right? Wondering if there’s some form of notation that could make that clearer.

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