世界量子日系列访谈|PHYSSCR期刊编委罗明星教授

11 4月 2024 gabriels
世界量子日(World Quantum Day)定于每年的4月14日,是由来自65个以上国家的量子科学家发起的一项倡议,于2021年4月14日启动,旨在让公众也能参与到对量子科学与技术的理解和讨论。

在今年世界量子日来临之际,IOP出版社邀请了多位量子科学领域的编委进行一系列访谈。本次,我们采访了Physica Scripta(PHYSSCR)期刊的编委、西南交通大学的罗明星教授,让我们一起看看他对量子研究领域发展的见解吧。


访谈详情

1. 您目前的研究重点是什么?

We are now focus the quantum information processing, quantum Internet and quantum battery.

2. 您认为到目前为止,量子科学领域最大的进步是什么?

There are so many amazing breakthroughs in quantum science, but I truly believe that one of the biggest advancements to date is the discovery and understanding of quantum entanglement. Quantum entanglement is a phenomenon where two or more particles become interconnected in such a way that the state of one particle is directly related to the state of another, regardless of the distance between them. This nonlocal correlation, as described by quantum mechanics, challenges our classical understanding of physics and has profound implications for fields such as quantum computing, quantum communication, and quantum cryptography. I think understanding and harnessing quantum entanglement has not only revolutionized our understanding of the quantum world but also holds the key to unlocking new possibilities for future technological advancements and scientific discoveries.

3. 在您看来,量子科学与技术领域的下一个重大突破可能是什么?

I think one potential next big breakthrough in quantum science and technology might well be the development of fault-tolerant quantum computing. In my view, one of the major challenges facing quantum computing is how to generate large-scale faithful qubits. One way is to develop a suitable quantum system and error correction techniques.

Another possible breakthrough could be the realization of large-scale quantum networks for quantum communication. I believe quantum networks would enable secure communication using quantum cryptography and facilitate the distribution of entangled qubits over long distances, enabling new possibilities for quantum information processing and communication.

These advancements could significantly impact various fields, leading to new technologies and applications that leverage the unique properties of quantum mechanics.

4. 您认为Physica Scripta期刊在支持该领域研究方面起到了什么作用?

Physica Scripta, as an esteemed broad-scope journal dedicated to presenting high-quality research covering all areas of physics and related multidisciplinary topics across the physical sciences, plays a crucial role in advancing research in the field of quantum science. The journal provides a reputable platform for researchers to share their high-quality findings, theories, and experimental results in quantum science. Its affiliation with the Institute of Physics (IOP) and the expertise of its reviewers enhance its credibility and visibility, thus contributing significantly to the advancement of quantum science research and innovation.

5. 您对量子研究领域还有什么其他见解或者建议?

There are many other important research topics, but what interests me is quantum batteries. Quantum batteries represent a groundbreaking advancement in energy storage technology, offering the potential for significantly higher energy densities and faster charging times compared to traditional batteries. I think by harnessing quantum principles such as superposition and entanglement, quantum batteries might store and release energy in more efficient and sustainable ways. This has the potential to revolutionize various industries, from electronics to transportation, by enabling longer-lasting and more powerful energy storage solutions. I believe the development of quantum batteries could play a crucial role in addressing the growing demand for energy storage in a wide range of applications, ultimately leading to more sustainable and efficient energy systems for the future.


编委介绍

罗明星  教授

西南交通大学

  • He is a full professor at Southwest Jiaotong University, China. He  focuses on quantum information, quantum networks, and quantum batteries. He has published more than 100 academic papers  in prestigious international journals, including Rep. Prog. Phys., Phys. Rev. Lett., Cell Rep. Phys. Sci., and npj Quantum Inf. He has been the recipient of National Science Funds for his groundbreaking research.

量子领域最新资讯

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期刊介绍

Physica Scripta

  • 2022年影响因子:2.9  Citescore: 4.4
  • Physica Scripta(PHYSSCR,物理学手稿)是一本致力于呈现实验和理论物理学任何分支及相关领域(尤其是跨学科和交叉学科)的原创研究的国际期刊。PHYSSCR每年出版12期,除原创性研究外,还出版编委会特邀文章、专刊等,包括年度诺贝尔物理学研讨。