BB84 Quantum Key Distribution: Difference between revisions

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==Notations Used==
==Notations Used==
**<math>n</math> number of total rounds of the protocol.
*<math>n</math> number of total rounds of the protocol.
**<math>\ell</math> size of the secret key.
*<math>\ell</math> size of the secret key.
**<math>X_i, Y_i</math> bits of input of Sender and Receiver, respectively, that define the measurement basis.
*<math>X_i, Y_i</math> bits of input of Sender and Receiver, respectively, that define the measurement basis.
**<math>A_i,B_i</math> bits of output of Sender and Receiver, respectively.
*<math>A_i,B_i</math> bits of output of Sender and Receiver, respectively.
**<math>K_A,K_B</math> final key of Sender and Receiver, respectively.
*<math>K_A,K_B</math> final key of Sender and Receiver, respectively.
**<math>Q_X</math> is the quantum bit error rate QBER in the <math>X</math> basis.
*<math>Q_X</math> is the quantum bit error rate QBER in the <math>X</math> basis.
**<math>Q_Z</math> is the quantum bit error rate QBER in the <math>Z</math> basis estimated prior to the protocol.
*<math>Q_Z</math> is the quantum bit error rate QBER in the <math>Z</math> basis estimated prior to the protocol.
**<math>H</math> is the Hadamard gate. <math>H^{0} = I, H^{1} = H</math>.
*<math>H</math> is the Hadamard gate. <math>H^{0} = I, H^{1} = H</math>.
**<math>\gamma</math> is the probability that Sender (Receiver) prepares (measures) a qubit in the <math>X</math> basis.
*<math>\gamma</math> is the probability that Sender (Receiver) prepares (measures) a qubit in the <math>X</math> basis.
**<math>\epsilon_{\rm EC}</math>, <math>\epsilon'_{\rm EC}</math> are the error probabilities of the error correction protocol.
*<math>\epsilon_{\rm EC}</math>, <math>\epsilon'_{\rm EC}</math> are the error probabilities of the error correction protocol.
**<math>\epsilon_{\rm PA}</math> is the error probability of the privacy amplification protocol.
*<math>\epsilon_{\rm PA}</math> is the error probability of the privacy amplification protocol.
**<math>\epsilon_{\rm PE}</math> is the error probability of the parameter estimation.
*<math>\epsilon_{\rm PE}</math> is the error probability of the parameter estimation.
 
==Properties==
==Properties==
'''The protocol-'''
'''The protocol-'''
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