# Chip-Based Electronic System for Quantum Key Distribution

**Authors:** Siyuan Zhang, Wei Mao, Shaobo Luo, Shihai Sun

PMC · DOI: 10.3390/e26050382 · Entropy · 2024-04-29

## TL;DR

This paper introduces a fully integrated electronic chip for quantum key distribution, aiming to improve performance and reduce costs.

## Contribution

The first fully integrated driver chip for QKD using 28 nm CMOS technology is designed and evaluated.

## Key findings

- The chip includes an ARM processor, delay cells, ADC, OPAMP, and DAC for QKD control.
- Simulations show a minimum delay of 11ps, 86.2 dB open-loop gain, and high sampling rates.
- This design could enhance QKD system performance and inspire future QKD developments.

## Abstract

Quantum Key Distribution (QKD) has garnered significant attention due to its unconditional security based on the fundamental principles of quantum mechanics. While QKD has been demonstrated by various groups and commercial QKD products are available, the development of a fully chip-based QKD system, aimed at reducing costs, size, and power consumption, remains a significant technological challenge. Most researchers focus on the optical aspects, leaving the integration of the electronic components largely unexplored. In this paper, we present the design of a fully integrated electrical control chip for QKD applications. The chip, fabricated using 28 nm CMOS technology, comprises five main modules: an ARM processor for digital signal processing, delay cells for timing synchronization, ADC for sampling analog signals from monitors, OPAMP for signal amplification, and DAC for generating the required voltage for phase or intensity modulators. According to the simulations, the minimum delay is 11ps, the open-loop gain of the operational amplifier is 86.2 dB, the sampling rate of the ADC reaches 50 MHz, and the DAC achieves a high rate of 100 MHz. To the best of our knowledge, this marks the first design and evaluation of a fully integrated driver chip for QKD, holding the potential to significantly enhance QKD system performance. Thus, we believe our work could inspire future investigations toward the development of more efficient and reliable QKD systems.

## Full-text entities

- **Diseases:** ADC (MESH:C000721267), injury to people or property (MESH:C000719191), QKD (MESH:D020243)
- **Chemicals:** ADC (-)

## Full text

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## Figures

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## References

26 references — full list in the complete paper: https://tomesphere.com/paper/PMC11120499/full.md

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Source: https://tomesphere.com/paper/PMC11120499