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Hidden Treasures of Semiconducting Materials for Quantum Computing: An Upcoming Fortune for Supercomputing

Hidden Treasures of Semiconducting Materials for Quantum Computing: An Upcoming Fortune for Supercomputing

Dillip Kumar Pattanayak, Arun Kumar Padhy, Lokesh Kumar Prusty, Ranjan Kumar Bhuyna, Samita Pattanayak
Copyright: © 2022 |Pages: 22
ISBN13: 9781799891833|ISBN10: 1799891836|ISBN13 Softcover: 9781799891840|EISBN13: 9781799891857
DOI: 10.4018/978-1-7998-9183-3.ch009
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MLA

Pattanayak, Dillip Kumar, et al. "Hidden Treasures of Semiconducting Materials for Quantum Computing: An Upcoming Fortune for Supercomputing." Technology Road Mapping for Quantum Computing and Engineering, edited by Brojo Kishore Mishra, IGI Global, 2022, pp. 132-153. https://doi.org/10.4018/978-1-7998-9183-3.ch009

APA

Pattanayak, D. K., Padhy, A. K., Prusty, L. K., Bhuyna, R. K., & Pattanayak, S. (2022). Hidden Treasures of Semiconducting Materials for Quantum Computing: An Upcoming Fortune for Supercomputing. In B. Mishra (Ed.), Technology Road Mapping for Quantum Computing and Engineering (pp. 132-153). IGI Global. https://doi.org/10.4018/978-1-7998-9183-3.ch009

Chicago

Pattanayak, Dillip Kumar, et al. "Hidden Treasures of Semiconducting Materials for Quantum Computing: An Upcoming Fortune for Supercomputing." In Technology Road Mapping for Quantum Computing and Engineering, edited by Brojo Kishore Mishra, 132-153. Hershey, PA: IGI Global, 2022. https://doi.org/10.4018/978-1-7998-9183-3.ch009

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Abstract

Quantum computing is based on physical materials. The choice of material is important, and semiconductor materials have become a widely trailed choice in recent years. A lot of initial research into quantum computing only manifested that it could operate at temperatures close to absolute zero. However, because semiconductors are now used in the construct of these systems, it has enabled researchers to utilize quantum computers in room temperature conditions. This is one of the major reasons why quantum computing is close to commercial realization, so the role played by semiconductors is of major importance. It is true that the implementation of semiconductors has been challenging in its own way. Many semiconducting materials can exhibit many quantum degrees of freedom, and this causes the qubits to interact with each and decode quickly. Here the authors try to project a systematic study of different semiconducting materials used for quantum computing.

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