BB84 Quantum Key Distribution: Difference between revisions

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*Both Sender and Receiver, each, compute <math>Q_X = \frac{1}{\text{size}Q} \sum_{i=1}^{n'}Q_i</math></br>
*Both Sender and Receiver, each, compute <math>Q_X = \frac{1}{\text{size}Q} \sum_{i=1}^{n'}Q_i</math></br>
<u>'''Stage 4'''</u> Error correction
<u>'''Stage 4'''</u> Error correction
#<math>C(\cdot,\cdot)</math> is an error correction subroutine determined by the previously estimated value of <math>Q_Z</math> and with error parameters  <math>\epsilon'_{\rm EC}</math> and <math>\epsilon_{\rm EC}</math>
*'<math>C(\cdot,\cdot)</math> is an error correction subroutine determined by the previously estimated value of <math>Q_Z</math> and with error parameters  <math>\epsilon'_{\rm EC}</math> and <math>\epsilon_{\rm EC}</math>
#Both Sender and Receiver run <math>C(A_1^{n'},B_1^{n'})</math>.  
#Both Sender and Receiver run <math>C(A_1^{n'},B_1^{n'})</math>'.  
#Receiver obtains <math>\tilde{B}_1^{n'}</math>
#Receiver obtains <math>\tilde{B}_1^{n'}</math>
<u>'''Stage 5'''</u> Privacy amplification
<u>'''Stage 5'''</u> Privacy amplification
#<math>PA(\cdot,\cdot)</math> is a privacy amplification subroutine determined by the size <math>\ell</math>, computed from Eq.(3), and  with secrecy parameter <math>\epsilon_{\rm PA}</math>
*'<math>PA(\cdot,\cdot)</math> is a privacy amplification subroutine determined by the size <math>\ell</math>, computed from Eq.(3), and  with secrecy parameter <math>\epsilon_{\rm PA}</math>'
#Sender and Receiver run $PA(A_1^{n'},\tilde{B}_1^{n'})$ and obtain secret keys $K_A, K_B$\;
#Sender and Receiver run $PA(A_1^{n'},\tilde{B}_1^{n'})$ and obtain secret keys $K_A, K_B$\;


==Relevant Papers==
==Relevant Papers==
Write, autoreview, editor, reviewer
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