The Quantum Information Technologies Journal (QIT-J ) encompasses a wide range of topics within the quantum technology landscape, including but not limited to:

• Quantum Computing: Quantum algorithms, architecture and hardware technologies, fault-tolerant quantum computing, quantum circuit synthesis, quantum integrated circuits and systems, quantum memory, programming languages and software engineering, adiabatic quantum computation, quantum optimization, quantum simulations, quantum machine learning, and quantum distributed computing.
• Quantum Communications, Networking, Cryptography: Quantum network architecture and protocols, quantum key distribution, quantum cryptography and quantum/post-quantum secure systems, quantum-classic communications, quantum entangled communication and networking, quantum switching and network devices, quantum wireless communications.
• Quantum information: quantum information theory, quantum error correction, quantum source coding, and quantum information processing.
• Quantum Sensing: Quantum metrology, quantum sensors and fusion, quantum imaging and holography, quantum radar, quantum positioning and navigation, quantum channel characterization and modelling, and quantum remote sensing.
• Quantum Industrial Applications: Practical applications of quantum technologies in various industries such as healthcare, biomedical, material synthesis, drug discovery, finance, energy, and logistics.
• Quantum Standardisation. Research contributions towards standardization, for instance, establishing inter-operable protocols and interfaces, conforming metrics to ensure interoperability, compatibility, quantum device/sensor calibration and characterization, and efficient development of quantum devices and systems