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How to prove teleportation does not violate non-cloning theorem?

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How to prove teleportation does not violate non-cloning theorem?

What is quantum gate teleportation?Using a fractional number of classical bits within quantum teleportationNo-cloning theorem and distinguishing between two non-orthogonal quantum statesWhen you act on a multi-qubit system with a 2-qubit gate, what happens to the third qubit?Applying CNOT with local operations and two EPR pairsQuantum teleportation: second classical bit for removing entanglement?BB84 attack with entangled qubits exampleControlling high-dimensional Hilbert spaces with a single qubitWhat does teleportation have to do w/ XOR linked lists?Construction of optimal ensemble to show quantum steerability

1

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For a given teleportation process as depicted in the figure, how one can say that teleporting the qubit state $|qrangle$ has not cloned at the end of Bob's measurement?

algorithm entanglement teleportation no-cloning-theorem

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1

$begingroup$

For a given teleportation process as depicted in the figure, how one can say that teleporting the qubit state $|qrangle$ has not cloned at the end of Bob's measurement?

algorithm entanglement teleportation no-cloning-theorem

share|improve this question

edited 1 hour ago

Blue♦

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$begingroup$

For a given teleportation process as depicted in the figure, how one can say that teleporting the qubit state $|qrangle$ has not cloned at the end of Bob's measurement?

algorithm entanglement teleportation no-cloning-theorem

share|improve this question

edited 1 hour ago

Blue♦

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asked 2 hours ago

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share|improve this question

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edited 1 hour ago

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edited 1 hour ago

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2 Answers
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There's nothing to prove as such here. It is evident from the teleportation protocol itself.

Yes, at the conclusion of the teleportation protocol, Bob's qubit certainly will take on the same state as Alice's qubit's initial state i.e. $|qrangle$. However, Alice's qubit will now exist as an inseparable part of an entangled Bell state. You haven't really been able to create a "copy" of Alice's qubit, in the sense that Alice's qubit's initial state is "destroyed" in the process and is no longer $|qrangle$.

In (crude) analogical terms, in the quantum teleportation protocol you "cut and paste" the state $|qrangle$ rather than "copying and pasting". So there's no violation of the No cloning theorem!

share|improve this answer

edited 18 mins ago

answered 1 hour ago

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$begingroup$

I.e., if we have the entire initial state is written as follows

$| q rangle otimes | beta_{00} rangle =(alpha | 0rangle+beta | 1 rangle ) otimes frac{1}{sqrt{2}}( |00rangle+| 11 rangle )= frac{1}{sqrt{2}}(alpha | 000rangle+alpha | 011 rangle+beta | 100 rangle+beta | 111 rangle )$ ,

then, after the measurement, we obtain the state

$|psi rangle equiv{ |00rangle frac{alpha | 0 rangle+beta | 1rangle}{2}+| 01 rangle frac{alpha | 1 rangle+beta | 0rangle}{2}+| 10 rangle frac{alpha | 0 rangle-beta | 1rangle}{2}+| 11 rangle frac{alpha | 1 rangle-beta | 0rangle}{2} }$ ,

hence we can no longer write

$| q rangle otimes | something rangle$ ,

namely, we can't factorize $| q rangle$ outside the result which implies that it didn't produce again.

share|improve this answer

answered 10 mins ago

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2

$begingroup$

There's nothing to prove as such here. It is evident from the teleportation protocol itself.

Yes, at the conclusion of the teleportation protocol, Bob's qubit certainly will take on the same state as Alice's qubit's initial state i.e. $|qrangle$. However, Alice's qubit will now exist as an inseparable part of an entangled Bell state. You haven't really been able to create a "copy" of Alice's qubit, in the sense that Alice's qubit's initial state is "destroyed" in the process and is no longer $|qrangle$.

In (crude) analogical terms, in the quantum teleportation protocol you "cut and paste" the state $|qrangle$ rather than "copying and pasting". So there's no violation of the No cloning theorem!

share|improve this answer

edited 18 mins ago

answered 1 hour ago

Blue♦Blue

6,29541355

$endgroup$

add a comment | 

2

$begingroup$

There's nothing to prove as such here. It is evident from the teleportation protocol itself.

Yes, at the conclusion of the teleportation protocol, Bob's qubit certainly will take on the same state as Alice's qubit's initial state i.e. $|qrangle$. However, Alice's qubit will now exist as an inseparable part of an entangled Bell state. You haven't really been able to create a "copy" of Alice's qubit, in the sense that Alice's qubit's initial state is "destroyed" in the process and is no longer $|qrangle$.

In (crude) analogical terms, in the quantum teleportation protocol you "cut and paste" the state $|qrangle$ rather than "copying and pasting". So there's no violation of the No cloning theorem!

share|improve this answer

edited 18 mins ago

answered 1 hour ago

Blue♦Blue

6,29541355

$endgroup$

add a comment | 

$begingroup$

There's nothing to prove as such here. It is evident from the teleportation protocol itself.

Yes, at the conclusion of the teleportation protocol, Bob's qubit certainly will take on the same state as Alice's qubit's initial state i.e. $|qrangle$. However, Alice's qubit will now exist as an inseparable part of an entangled Bell state. You haven't really been able to create a "copy" of Alice's qubit, in the sense that Alice's qubit's initial state is "destroyed" in the process and is no longer $|qrangle$.

In (crude) analogical terms, in the quantum teleportation protocol you "cut and paste" the state $|qrangle$ rather than "copying and pasting". So there's no violation of the No cloning theorem!

share|improve this answer

edited 18 mins ago

answered 1 hour ago

Blue♦Blue

6,29541355

$endgroup$

share|improve this answer

edited 18 mins ago

answered 1 hour ago

Blue♦Blue

6,29541355

answered 1 hour ago

Blue♦Blue

6,29541355

answered 1 hour ago

Blue♦Blue

6,29541355

0

$begingroup$

I.e., if we have the entire initial state is written as follows

$| q rangle otimes | beta_{00} rangle =(alpha | 0rangle+beta | 1 rangle ) otimes frac{1}{sqrt{2}}( |00rangle+| 11 rangle )= frac{1}{sqrt{2}}(alpha | 000rangle+alpha | 011 rangle+beta | 100 rangle+beta | 111 rangle )$ ,

then, after the measurement, we obtain the state

$|psi rangle equiv{ |00rangle frac{alpha | 0 rangle+beta | 1rangle}{2}+| 01 rangle frac{alpha | 1 rangle+beta | 0rangle}{2}+| 10 rangle frac{alpha | 0 rangle-beta | 1rangle}{2}+| 11 rangle frac{alpha | 1 rangle-beta | 0rangle}{2} }$ ,

hence we can no longer write

$| q rangle otimes | something rangle$ ,

namely, we can't factorize $| q rangle$ outside the result which implies that it didn't produce again.

share|improve this answer

answered 10 mins ago

Student404MusStudent404Mus

163

New contributor

Student404Mus is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

$endgroup$

add a comment | 

0

$begingroup$

I.e., if we have the entire initial state is written as follows

$| q rangle otimes | beta_{00} rangle =(alpha | 0rangle+beta | 1 rangle ) otimes frac{1}{sqrt{2}}( |00rangle+| 11 rangle )= frac{1}{sqrt{2}}(alpha | 000rangle+alpha | 011 rangle+beta | 100 rangle+beta | 111 rangle )$ ,

then, after the measurement, we obtain the state

$|psi rangle equiv{ |00rangle frac{alpha | 0 rangle+beta | 1rangle}{2}+| 01 rangle frac{alpha | 1 rangle+beta | 0rangle}{2}+| 10 rangle frac{alpha | 0 rangle-beta | 1rangle}{2}+| 11 rangle frac{alpha | 1 rangle-beta | 0rangle}{2} }$ ,

hence we can no longer write

$| q rangle otimes | something rangle$ ,

namely, we can't factorize $| q rangle$ outside the result which implies that it didn't produce again.

share|improve this answer

answered 10 mins ago

Student404MusStudent404Mus

163

New contributor

Student404Mus is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
Check out our Code of Conduct.

$endgroup$

add a comment | 

$begingroup$

I.e., if we have the entire initial state is written as follows

$| q rangle otimes | beta_{00} rangle =(alpha | 0rangle+beta | 1 rangle ) otimes frac{1}{sqrt{2}}( |00rangle+| 11 rangle )= frac{1}{sqrt{2}}(alpha | 000rangle+alpha | 011 rangle+beta | 100 rangle+beta | 111 rangle )$ ,

then, after the measurement, we obtain the state

$|psi rangle equiv{ |00rangle frac{alpha | 0 rangle+beta | 1rangle}{2}+| 01 rangle frac{alpha | 1 rangle+beta | 0rangle}{2}+| 10 rangle frac{alpha | 0 rangle-beta | 1rangle}{2}+| 11 rangle frac{alpha | 1 rangle-beta | 0rangle}{2} }$ ,

hence we can no longer write

$| q rangle otimes | something rangle$ ,

namely, we can't factorize $| q rangle$ outside the result which implies that it didn't produce again.

share|improve this answer

answered 10 mins ago

Student404MusStudent404Mus

163

New contributor

Student404Mus is a new contributor to this site. Take care in asking for clarification, commenting, and answering.
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$endgroup$

share|improve this answer

answered 10 mins ago

Student404MusStudent404Mus

163

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answered 10 mins ago

Student404MusStudent404Mus

163

New contributor

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answered 10 mins ago

Student404MusStudent404Mus

163