About the Journal

Quantum Nexus is an interdisciplinary journal dedicated to publishing high-quality, peer-reviewed articles that address the latest developments in quantum theory, experimental techniques, and technological innovations. With a focus on fostering interdisciplinary collaborations, Quantum Nexus brings together researchers from physics, engineering, biology, materials science, information technology, and more, to explore the broad spectrum of quantum applications shaping the future of our world.

 

Scope: Quantum Nexus covers a wide range of topics, aiming to capture the multifaceted nature of quantum research and its implications across various domains. The journal's scope includes, but is not limited to, the following areas:

Quantum Physics and Theory: Quantum mechanics, quantum field theory, quantum computing, quantum cryptography, and quantum information theory. Insights into foundational questions of quantum physics and the theoretical underpinnings of quantum technologies.

Quantum Materials: The development and characterization of materials that exhibit quantum properties, including topological insulators, quantum dots, quantum semiconductors, and superconducting materials. Research on materials for quantum computing, sensing, and energy applications.

Quantum Computing and Information: Advancements in quantum algorithms, quantum error correction, quantum machine learning, quantum communication, and quantum networks. The integration of quantum computing with classical computing and potential use cases in optimization, artificial intelligence, and data science.

Quantum Biology: Investigating the role of quantum mechanics in biological processes, such as photosynthesis, enzyme activity, and quantum coherence in the brain. Exploring the potential for quantum technologies to revolutionize bioengineering and molecular biology.

Quantum Engineering and Applications: Practical applications of quantum technologies in engineering, including the development of quantum sensors, quantum imaging, and quantum-enhanced metrology. The design of quantum devices for real-world use in medical diagnostics, environmental monitoring, and industrial automation.

Quantum in Materials Science: The study of how quantum phenomena influence the properties and behavior of materials, and how these materials can be utilized in fields like nanotechnology, energy storage, and new semiconductor technologies.

Quantum Sensing and Metrology: Exploring new techniques in quantum sensing for measuring physical quantities with unprecedented precision, including time, magnetic fields, temperature, and gravitational waves. Applications in medical imaging, navigation, and environmental monitoring.

Quantum Networks and Telecommunications: The development of secure communication networks based on quantum principles, including quantum key distribution and the potential for a quantum internet. Research on scalable quantum network architectures and protocols for global quantum communication.

 

Open Access

Quantum Nexus (QN)

The ownership of Quantum Nexus belongs to Sin-Chn Scientific Press Pte. Ltd.