BB84 Quantum Key Distribution: Difference between revisions
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''<math>PA(\cdot,\cdot)</math> is a privacy amplification subroutine (see [[BB84 Quantum Key Distribution #References| [10]]]) determined by the size <math>\ell</math>, computed from equation for key length <math>\ell</math> (see [[Quantum Key Distribution#Properties|Properties]]), and with secrecy parameter <math>\epsilon_{\rm PA}</math>'' | ''<math>PA(\cdot,\cdot)</math> is a privacy amplification subroutine (see [[BB84 Quantum Key Distribution #References| [10]]]) determined by the size <math>\ell</math>, computed from equation for key length <math>\ell</math> (see [[Quantum Key Distribution#Properties|Properties]]), and with secrecy parameter <math>\epsilon_{\rm PA}</math>'' | ||
#Alice and Bob run <math>PA(A_1^{n'},\tilde{B}_1^{n'})</math> and obtain secret keys <math>K_A, K_B</math>; | #Alice and Bob run <math>PA(A_1^{n'},\tilde{B}_1^{n'})</math> and obtain secret keys <math>K_A, K_B</math>; | ||
==Simulation and benchmarking== | |||
A simulation code for benchmarking the QKD protocol is available [https://github.com/LiaoChinTe/netsquid-simulation/tree/main/QKD/E91 here]. | |||
Hardware parameter analysis can be found in the following [https://cloud.veriqloud.fr/index.php/s/iiw1SxU4D22FyQ7 preprint] | |||
==Further Information== | ==Further Information== | ||