Editing Asymmetric Universal 1-2 Cloning
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*Perform the cloner circuit. the cloner circuit consists of four CNOT gate acting in all the three input qubits. For every CNOT gate, we have a control qubit (which indicates whether or not the CNOT should act) and a target qubit (which is the qubit that CNOT gate acts on it and flips it). | *Perform the cloner circuit. the cloner circuit consists of four CNOT gate acting in all the three input qubits. For every CNOT gate, we have a control qubit (which indicates whether or not the CNOT should act) and a target qubit (which is the qubit that CNOT gate acts on it and flips it). | ||
* The two asymmetric clones will appear at two of the outputs (depending on the preparation stage) and the other output should be discarded. | * The two asymmetric clones will appear at two of the outputs (depending on the preparation stage) and the other output should be discarded. | ||
== | ==Notations Used== | ||
**<math>|\psi\rangle_{in}:</math>The original input state | **<math>|\psi\rangle_{in}:</math>The original input state | ||
**<math>\rho_{\psi_{in}}:</math> The density matrix of the input pure state equal to <math>|\psi_{in}\rangle\langle\psi_{in}|</math> | **<math>\rho_{\psi_{in}}:</math> The density matrix of the input pure state equal to <math>|\psi_{in}\rangle\langle\psi_{in}|</math> |