Abdul Fatah Jamro
About Me
Hello! I'm Abdul Fatah, the founder of QuantumBeads. more...
I am a passionate researcher and PhD student in quantum computing algorithms and error-correcting codes. I believe Quantum computing technologies are approaching faster than we expect. I am a young professional having 5+ years of experience in electrical and electronics field. I have Bachelor and Master of Engineering degrees in electronics engineering. I enjoy quantum information science and technology research at its roots. QuantumBeads is an initiative during my PhD to spread awareness of quantum computing technologies and collaborate for advancing quantum computing research and development.
Publications
An Overview of Quantum Latins Squares in Quantum Information Theory
Abdul Fatah and Ian McLoughlin and Saim Ghafoor and Iulia Anton,
Atlantic Technological University Galway Ireland
2024 International Conference on Quantum Communications, Networking, and Computing (QCNC), Kanazawa, Japan, 2024, pp. 57-64, doi: 10.1109/QCNC62729.2024.00018.
Abstract
Abstract: Quantum Latin Squares have emerged as mathematical structures of interest in quantum information theory. This paper provides a comprehensive overview of quantum Latin squares. We aim to synthesize the current knowledge for the benefit of researchers in quantum information theory. We begin by establishing the theoretical foundation linking classical Latin squares with their quantum counterparts. This provides insight into their potential applications, particularly in the realm of quantum error correction. Through a detailed examination, we outline known constructions and elucidate the properties of quantum Latin squares, highlighting their role within quantum computing frameworks. We then explore the relationships of quantum Latin squares with mutually unbiased bases and unitary error bases. This underscores their importance in the construction of quantum error correcting codes using mutually orthogonal quantum Latin squares. We give significant focus to a comparative analysis between classical and quantum Latin squares, particularly in their applications to error correcting codes. The applications are analogous to the application of classical Latin squares to classical error correcting codes. This overview aims to not only compile existing research but also to inspire further exploration into Quantum Latin squares and their applications in quantum information theory.
Resume
My resume for detailed profile