Effects of Quantum Mechanical Properties of Complex Systems on Advanced Technological Applications in Japan

Abstract

Purpose: This study investigates the effects of quantum mechanical properties of complex systems on advanced technological applications in Japan.
 Materials and Methods: The study adopted a desktop methodology. Desk research refers to secondary data or that which can be collected without fieldwork. Desk research is basically involved in collecting data from existing resources hence it is often considered a low-cost technique as compared to field research, as the main cost is involved in executive’s time, telephone charges and directories. Thus, the study relied on already published studies, reports and statistics. This secondary data was easily accessed through the online journals and library.
 Results: The literature review and research findings highlight the significant effects of quantum mechanical properties of complex systems on various technological applications in Japan. The study reveals that quantum entanglement, quantum coherence, and quantum interference can be exploited for quantum computing, quantum communication, quantum sensing, quantum cryptography, quantum metrology, and other advanced technologies. The study also discusses the challenges and limitations of utilizing quantum mechanical properties in technological applications, such as decoherence, environmental interactions, and technical feasibility.
 Recommendations: This study offers a unique contribution to understanding the effects of quantum mechanical properties of complex systems on advanced technological applications in Japan. The research advances the knowledge in the field of quantum information science, quantum technology, and interdisciplinary research between quantum mechanics and technology. The findings provide insights into the potential applications of quantum mechanical properties in various technological fields, and their implications for theory, practice, and policy. The study has practical implications for researchers, engineers, policymakers, and industries involved in quantum technology research and development in Japan and beyond, guiding the future direction of quantum technology innovation and policy formulation