Current - Issue
Review Article
Quantum Physics in the Age of Quantum Computing
Shaik Salma Begum1
A. Nagarjuna2
A.V.N. Ashok Kumar3
K.V.S.N. Raju4
D.V.S.S Varma5
1 Department of Physics, Krishna University, Machilipatnam, Andhra Pradesh, India. 2 Associate Professor, Department of Physics, Sasi Institute of Technology & Engineering, Tadepalligudem, West Godavari, Andhra Pradesh, India. 3 Department of Physics, University College of Engineering, JNTU, Kakinada, Andhra Pradesh, India. 4 Department of Physics, Adikavi Nannaya University, TPG Campus, Andhra Pradesh, India. 5 Department of Computer Science & Engineering, Srinivasa Institute of Engineering & Technology, Cheyyeru (V), Amalapuram, Andhra Pradesh, India.
Published Online: May-June 2026
Pages: 155-159
Cite this article
↗ https://www.doi.org/10.59256/ijsreat.20260603022
References
1. Salah, Ahmed Ragab Mahmoud. "Foundations of Quantum Mechanics: Core Principles, Postulates, and Modern Interpretations." (2025).
2. Wagner, Caroline S., et al. "Approaches to understanding and measuring interdisciplinary scientific research (IDR): A review of the
literature. “Journal of informetrics 5.1 (2011): 14-26.
3. Keçeci, Mehmet. "Understanding quantum mechanics through hilbert spaces: Applications in quantum computing." Preprint (2025).
4. Yadin, Benjamin. Resource theories of quantum coherence: foundations and applications. Diss. University of Oxford, 2017.
5. Taravati, Sajjad. "Frequency-Multiplexed Millimetre-Wave Fault-Tolerant Superconducting Qubits Enabled by an On-Chip Nonreciprocal
Control Bus." arXiv preprint arXiv:2512.17588 (2025).
6. Zhu, Huihui, et al. "Quantum computing and machine learning on an integrated photonics platform." Information 15.2 (2024): 95.
7. Pérez-López, Daniel, and Luis Torrijos-Morán. "Large-scale photonic processors and their applications." npj Nanophotonic 2.1 (2025):32
8. Lappala, Anna. "The next revolution in computational simulations: Harnessing AI and quantum computing in molecular dynamics." CurrentOpinion in Structural Biology 89 (2024): 102919.
9. Gill, Sukhpal Singh, and Rajkumar Buyya. "Transforming research with quantum computing." Journal of Economy and Technology 4
(2026):1-8.
10. Iovane, Gerardo. "Quantum-inspired algorithms and perspectives for optimization." Electronics 14.14 (2025): 2839.
11. Mohammad, Suleiman Ibrahim, et al. "Quantum error correction with surface code analysis on quantum computing platform." Appl. Math.
Inf. Sci 19.2 (2025): 423-435.
12. Irkhin, V. Yu, and Yu N. Skryabin. "Modern physics of the condensed state: Strong correlations and quantum topology." Physics of Metals
and Metallography 120.6 (2019): 513-548.
13. Granelli, Fabrizio, et al. "A novel architecture for future classical‐quantum communication networks." Wireless Communications and
Mobile Computing 2022.1 (2022): 3770994.
2. Wagner, Caroline S., et al. "Approaches to understanding and measuring interdisciplinary scientific research (IDR): A review of the
literature. “Journal of informetrics 5.1 (2011): 14-26.
3. Keçeci, Mehmet. "Understanding quantum mechanics through hilbert spaces: Applications in quantum computing." Preprint (2025).
4. Yadin, Benjamin. Resource theories of quantum coherence: foundations and applications. Diss. University of Oxford, 2017.
5. Taravati, Sajjad. "Frequency-Multiplexed Millimetre-Wave Fault-Tolerant Superconducting Qubits Enabled by an On-Chip Nonreciprocal
Control Bus." arXiv preprint arXiv:2512.17588 (2025).
6. Zhu, Huihui, et al. "Quantum computing and machine learning on an integrated photonics platform." Information 15.2 (2024): 95.
7. Pérez-López, Daniel, and Luis Torrijos-Morán. "Large-scale photonic processors and their applications." npj Nanophotonic 2.1 (2025):32
8. Lappala, Anna. "The next revolution in computational simulations: Harnessing AI and quantum computing in molecular dynamics." CurrentOpinion in Structural Biology 89 (2024): 102919.
9. Gill, Sukhpal Singh, and Rajkumar Buyya. "Transforming research with quantum computing." Journal of Economy and Technology 4
(2026):1-8.
10. Iovane, Gerardo. "Quantum-inspired algorithms and perspectives for optimization." Electronics 14.14 (2025): 2839.
11. Mohammad, Suleiman Ibrahim, et al. "Quantum error correction with surface code analysis on quantum computing platform." Appl. Math.
Inf. Sci 19.2 (2025): 423-435.
12. Irkhin, V. Yu, and Yu N. Skryabin. "Modern physics of the condensed state: Strong correlations and quantum topology." Physics of Metals
and Metallography 120.6 (2019): 513-548.
13. Granelli, Fabrizio, et al. "A novel architecture for future classical‐quantum communication networks." Wireless Communications and
Mobile Computing 2022.1 (2022): 3770994.
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