The International Journal of Quantum Information (IJQI) serves as a premier platform for researchers, practitioners, and academics to publish high-quality research articles, reviews, and application papers in the field of quantum information. The journal focuses on the theoretical foundations, experimental implementations, and practical applications of quantum information science and technology.
Objective:
The primary objective of IJQI is to provide a leading publication venue for research that explores the fundamentals and advancements in quantum information theory, quantum computing, quantum cryptography, quantum communication, and quantum algorithms. The journal aims to foster the development of innovative quantum technologies and methodologies by integrating theoretical insights with experimental findings and practical applications.
Interdisciplinary Approach:
IJQI promotes an interdisciplinary approach by encouraging contributions that bridge physics, computer science, engineering, and related disciplines. The journal welcomes research that explores the intersection of quantum information with areas such as condensed matter physics, quantum optics, information theory, and cryptography. By fostering collaborations across disciplines, the journal facilitates the dissemination of innovative research that addresses complex challenges in quantum information science and leverages quantum technologies to enhance computational and communication capabilities.
Impact:
The impact of IJQI is significant in advancing both theoretical and practical aspects of quantum information. By publishing rigorous research articles, reviews, and application papers, the journal contributes to the development of new quantum algorithms, quantum cryptographic protocols, quantum communication techniques, and quantum computing architectures. Its publications inform the design of secure communication systems, efficient quantum computing models, and robust quantum information processing methods, thereby influencing advancements in various scientific and technological fields.
Significance:
IJQI holds significant importance for researchers, educators, and practitioners interested in advancing the field of quantum information. The journals contributions include theoretical advancements, practical applications, and critical analyses of quantum information techniques. By providing a platform for scholarly exchange and knowledge dissemination, the journal supports the development of innovative solutions that address real-world challenges in quantum information processing and communication. It fosters the continuous advancement of quantum information methodologies and technologies, facilitating the development of cutting-edge quantum systems that meet the demands of modern scientific, engineering, and industrial applications.
Journal Home:  Journal Homepage
Editor-in-Chief:  Berthold-Georg Englert
scope:
The International Journal of Quantum Information (IJQI) is a peer-reviewed journal that focuses on the theory and application of quantum information science. It provides a platform for the dissemination of research on all aspects of quantum information, including quantum computation, quantum communication, and quantum cryptography. Here is an overview:
Quantum Computation:
Research on quantum algorithms, quantum complexity theory, quantum computational models (such as quantum Turing machines and quantum circuits), error correction, fault tolerance, and implementations of quantum computers. This includes studies on the advantages of quantum computing over classical computing for specific problems.
Quantum Communication:
Studies on the transmission of quantum information over various channels, including quantum teleportation, quantum dense coding, quantum repeaters, and quantum networks. Research in this area focuses on improving the efficiency, security, and reliability of quantum communication systems.
Quantum Cryptography:
Exploration of cryptographic protocols based on quantum mechanics principles, such as quantum key distribution (QKD), quantum secret sharing, and quantum digital signatures. This includes both theoretical foundations and experimental implementations aimed at enhancing the security of communication systems.
Quantum Information Theory:
Theoretical investigations into the fundamental aspects of quantum information, including entanglement theory, quantum entropy, quantum channel capacities, quantum state discrimination, and quantum statistical mechanics. This research aims to understand how information behaves differently in the quantum realm compared to the classical realm.
Quantum Entanglement:
Studies on the properties and applications of quantum entanglement, including entanglement generation, manipulation, detection, and quantification. Research in this area explores the role of entanglement in quantum computing, communication, and metrology.
Quantum Error Correction:
Development of error-correcting codes and fault-tolerant protocols to protect quantum information from decoherence and operational errors. This includes both theoretical advancements and experimental demonstrations of error correction schemes in quantum systems.
Quantum Measurement and Control:
Research on the theory and practice of quantum measurement, quantum state estimation, and quantum feedback control. This includes studies on the impact of measurement on quantum systems and techniques for controlling quantum states and dynamics.
Quantum Optics and Quantum Optomechanics:
Investigations into the interaction between light and matter at the quantum level, including the generation, manipulation, and detection of quantum states of light. This also includes research on quantum optomechanical systems where mechanical motion is coupled to optical fields.
Quantum Many-Body Systems:
Studies on the quantum information properties of many-body systems, including quantum phase transitions, topological quantum matter, and entanglement in condensed matter systems. Research in this area aims to understand the role of quantum information in complex quantum systems.
Quantum Simulations:
Research on using quantum systems to simulate other quantum systems that are difficult to study directly. This includes both digital quantum simulations (using quantum computers) and analog quantum simulations (using controllable quantum systems).
Experimental Quantum Information:
Experimental advancements in the realization and demonstration of quantum information protocols and technologies. This includes experimental implementations in various physical platforms such as trapped ions, superconducting qubits, quantum dots, and photonic systems.
Print ISSN:  0219-7499
Electronic ISSN:  1793-6918
Abstracting and Indexing:  Science Citation Index Expanded, Scopus.
Imapct Factor 2023:  0.7
Subject Area and Category:  Physics and Space Sciences
Publication Frequency:  Bimonthly
H Index:  44
Q1:  
Q2:  
Q3:  Physics and Astronomy (miscellaneous)
Q4:  
Cite Score:  2.2
SNIP:  0.534
Journal Rank(SJR):  0.25
Latest Articles:   Latest Articles in International Journal of Quantum Information
Guidelines for Authors: International Journal of Quantum Information Author Guidelines
Paper Submissions: Paper Submissions in International Journal of Quantum Information
Publisher:  World Scientific Publishing
Country:  Singapore