MG3.1 -
Performance Limit of Monolithically Integrated Gaussian Modulated Coherent States Quantum Key Distribution Receiver in Silicon-on-Insulator CMOS
01:30-01:45
2017-10-02 01:30
2017-10-02 01:45
America/Denver
Performance Limit of Monolithically Integrated Gaussian Modulated Coherent States Quantum Key Distribution Receiver in Silicon-on-Insulator CMOS
For the silicon-photonics implementation of a continuous-variable quantum key distribution system using Gaussian modulated coherent states, we investigate the performance limit of balanced receivers in the presence of thermal noise, predicting a multi-gigabit/sec secure data rate in 28nm SOI CMOS technologies for monolithic integration.
Hilton Santa Fe Historic Plaza Kahiki/Lily
S. CHUNG
, Univ. of Southern California, Los Angeles, CA, United States,
A. RAVINDRANATH
, GlobalFoundries, new york, NY, United States
X. Yang
, MIT, MA, United States
For the silicon-photonics implementation of a continuous-variable quantum key distribution system using Gaussian modulated coherent states, we investigate the performance limit of balanced receivers in the presence of thermal noise, predicting a multi-gigabit/sec secure data rate in 28nm SOI CMOS technologies for monolithic integration.