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Semiconductor Technologies for Quantum Computing Hardware

Semiconductor Technologies for Quantum Computing Hardware
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Author(s): Dipan Kumar Das (Centurion University of Technology and Management, India), Padmaja Patnaik (Centurion University of Technology and Management, India), Sudip Kumar Das (Dr. C.V. Raman University, India), Mandakini Baral (Centurion University of Technology and Management, India)and Nibedita Nayak (Centurion University of Technology and Management, India)
 Copyright: 2025
 Pages: 24
 Source title: Integration of AI, Quantum Computing, and Semiconductor Technology
Source Author(s)/Editor(s): Brojo Kishore Mishra (NIST University, Berhampur, India)
 DOI: 10.4018/979-8-3693-7076-6.ch006

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Abstract

The integration of semiconductor technologies with quantum computing hardware holds immense promise in revolutionizing computation paradigms. This abstract delves into the pivotal role semiconductor materials play in advancing quantum computing hardware, focusing on their fabrication, implementation, and scalability. Silicon quantum dots emerge as frontrunners in this landscape, offering a robust platform for qubit realization. Through lithography, ion implantation, and etching processes, semiconductor-based qubits demonstrate remarkable potential for scalability and manufacturability. This abstract navigates through the fundamentals of quantum computing, elucidating the principles of qubits and quantum gates. It explores the historical evolution of semiconductor technologies in quantum computing hardware, highlighting silicon as a promising substrate for quantum dot-based architectures. Challenges such as coherence times and error rates are scrutinized alongside potential solutions.

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