Portable ground stations for space-to-ground quantum key distribution
- URL: http://arxiv.org/abs/2205.13828v1
- Date: Fri, 27 May 2022 08:41:15 GMT
- Title: Portable ground stations for space-to-ground quantum key distribution
- Authors: Ji-Gang Ren, Maimaiti Abulizi, Hai-Lin Yong, Juan Yin, Xue-Jiao Li,
Yuan Jiang, Wei-Yang Wang, Hua-Jian Xue, Yu-He Chen, Biao Jin, Ya-Yun Yin,
Zhou-Yu Tu, Xiao-Juan Zhu, Shuang-Qiang Zhao, Feng-Zhi Li, Sheng-Kai Liao,
Wen-Qi Cai, Wei-Yue Liu, Yuan Cao, Fei Zhou, Li Li, Nai-Le Liu, Qiang Zhang,
Yu-Ao Chen, Cheng-Zhi Peng, and Jian-Wei Pan
- Abstract summary: Quantum key distribution (QKD) uses the fundamental principles of quantum mechanics to share unconditionally secure keys between distant users.
Previous works based on the quantum science satellite "Micius" have initially demonstrated the feasibility of a global QKD network.
Here, we report space-to-ground QKD demonstrations based on portable receiving ground stations.
- Score: 13.807612565088956
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: Quantum key distribution (QKD) uses the fundamental principles of quantum
mechanics to share unconditionally secure keys between distant users. Previous
works based on the quantum science satellite "Micius" have initially
demonstrated the feasibility of a global QKD network. However, the practical
applications of space-based QKD still face many technical problems, such as the
huge size and weight of ground stations required to receive quantum signals.
Here, we report space-to-ground QKD demonstrations based on portable receiving
ground stations. The weight of the portable ground station is less than 100 kg,
the space required is less than 1 m$^{3}$ and the installation time requires no
more than 12 hours, all of the weight, required space and deployment time are
about two orders of magnitude lower than those for the previous systems.
Moreover, the equipment is easy to handle and can be placed on the roof of
buildings in a metropolis. Secure keys have been successfully generated from
the "Micius" satellite to these portable ground stations at six different
places in China, and an average final secure key length is around 50 kb can be
obtained during one passage. Our results pave the way for, and greatly
accelerate the practical application of, space-based QKD.
Related papers
- Metropolitan quantum key distribution using a GaN-based room-temperature telecommunication single-photon source [54.32714639668751]
Single-photon sources (SPS) hold the potential to enhance the performance of quantum key distribution (QKD)
We have successfully demonstrated QKD using a room-temperature SPS at telecommunication wavelength.
arXiv Detail & Related papers (2024-09-27T07:35:51Z) - Microsatellite-based real-time quantum key distribution [36.9589130051099]
A quantum satellite constellation offers a solution to facilitate the quantum network on a global scale.
We develop a quantum microsatellite capable of performing space-to-ground quantum key distribution (QKD) using portable ground stations.
We achieve the sharing of up to 0.59 million bits of secure keys during a single satellite pass.
arXiv Detail & Related papers (2024-08-20T16:42:15Z) - End-to-End Demonstration for CubeSatellite Quantum Key Distribution [0.0]
We investigate the feasibility of satellite-based quantum key exchange using low-cost compact nano-satellites.
This paper demonstrates the first prototype of system level quantum key distribution aimed at the Cube satellite scenario.
arXiv Detail & Related papers (2023-12-04T16:25:06Z) - Blockwise Key Distillation in Satellite-based Quantum Key Distribution [68.8891637551539]
We compare two key distillation techniques for satellite-based quantum key distribution.
One is the traditional em non-blockwise strategy that treats all the signals as a whole.
The other is a em blockwise strategy that divides the signals into individual blocks that have similar noise characteristics and processes them independently.
arXiv Detail & Related papers (2023-07-10T01:34:58Z) - Quantum Key Distribution Using a Quantum Emitter in Hexagonal Boron
Nitride [48.97025221755422]
We demonstrate a room temperature, discrete-variable quantum key distribution system using a bright single photon source in hexagonal-boron nitride.
We have generated keys with one million bits length, and demonstrated a secret key of approximately 70,000 bits, at a quantum bit error rate of 6%.
Our work demonstrates the first proof of concept finite-key BB84 QKD system realised with hBN defects.
arXiv Detail & Related papers (2023-02-13T09:38:51Z) - Advances in entanglement-based QKD for space applications [0.0]
Quantum key distribution (QKD) enables tap-proof exchange of cryptographic keys guaranteed by the very laws of physics.
One of the last remaining roadblocks is the high loss experienced during terrestrial distribution of photons, which limits the distance between the communicating parties.
We review the most relevant advances in entanglement-based QKD which are implementable over free-space links and thus enable distribution of secure keys from orbit.
arXiv Detail & Related papers (2022-10-05T13:09:36Z) - Field-deployable Quantum Memory for Quantum Networking [62.72060057360206]
We present a quantum memory engineered to meet real-world deployment and scaling challenges.
The memory technology utilizes a warm rubidium vapor as the storage medium, and operates at room temperature.
We demonstrate performance specifications of high-fidelity retrieval (95%) and low operation error $(10-2)$ at a storage time of 160 $mu s$ for single-photon level quantum memory operations.
arXiv Detail & Related papers (2022-05-26T00:33:13Z) - Towards metropolitan free-space quantum networks [2.28915020306504]
We make the case for an entanglement-based free-space quantum network as a practical and efficient alternative for metropolitan applications.
For a representative 1.7-km free-space link, we showcase its ad hoc deployability and achieve secure key rates of up to 5.7 kbps, with 2.5 kbps in direct noon sunlight.
arXiv Detail & Related papers (2022-05-25T15:39:16Z) - A CubeSat platform for space based quantum key distribution [62.997667081978825]
We report on the follow-up mission of SpooQy-1, a 3U CubeSat that successfully demonstrated the generation of polarization-entangled photons in orbit.
The next iteration of the mission will showcase satellite-to-ground quantum key distribution based on a compact source of polarization-entangled photon-pairs.
We briefly describe the design of the optical ground station that we are currently building in Singapore for receiving the quantum signal.
arXiv Detail & Related papers (2022-04-23T06:28:43Z) - Realizing quantum nodes in space for cost-effective, global quantum
communication: in-orbit results and next steps [94.08853042978113]
SpooQy-1 is a satellite developed at the Centre for Quantum Technologies.
It has successfully demonstrated the operation of an entangled photon pair source on a resource-constrained CubeSat platform.
arXiv Detail & Related papers (2021-04-22T02:59:23Z) - Quantum Keyless Privacy vs. Quantum Key Distribution for Space Links [0.0]
We study information theoretical security for space links between a satellite and a ground-station.
We demonstrate information theoretical secure communication rates (positive keyless private capacity) over a classical-quantum wiretap channel.
arXiv Detail & Related papers (2020-12-07T01:33:40Z)
This list is automatically generated from the titles and abstracts of the papers in this site.
This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.