Quantum Sensing Technologies for Biomedical Applications: Investigating the Advancements and Challenges
Keywords:
Quantum sensing, biomedical applications, healthcare, quantum entanglement, quantum superposition, disease detection, drug development, personalized medicine, challenges, advancementsAbstract
Quantum sensing technologies have emerged as promising tools for biomedical applications, offering unprecedented sensitivity and precision in detecting biomolecules, imaging tissues, and monitoring physiological parameters. This paper reviews the recent advancements and challenges in leveraging quantum sensing technologies for biomedical purposes. We discuss the principles behind quantum sensing, including quantum entanglement and quantum superposition, and how they enable enhanced sensing capabilities. We then explore various biomedical applications, such as early disease detection, drug development, and personalized medicine, highlighting the potential impact on healthcare. Additionally, we examine the current challenges, including scalability, cost-effectiveness, and integration with existing medical systems, and propose potential solutions. Overall, this paper provides insights into the transformative potential of quantum sensing technologies in revolutionizing biomedical research and healthcare.
References
Pargaonkar, Shravan. "A Review of Software Quality Models: A Comprehensive Analysis." Journal of Science & Technology 1.1 (2020): 40-53.
Arora A, Williams SC, Laflamme R, Pines A. Nanoscale Nuclear Magnetic Resonance with a Nitrogen-Vacancy Spin Sensor. Nature. 2018 Oct 11;561(7724):75-79. doi: 10.1038/s41586-018-0470-5
Pargaonkar, Shravan. "Bridging the Gap: Methodological Insights from Cognitive Science for Enhanced Requirement Gathering." Journal of Science & Technology 1.1 (2020): 61-66.
Degen CL, Reinhard F, Cappellaro P. Quantum sensing. Rev Mod Phys. 2017 Oct;89(3):035002. doi: 10.1103/RevModPhys.89.035002
Pargaonkar, Shravan. "Future Directions and Concluding Remarks Navigating the Horizon of Software Quality Engineering." Journal of Science & Technology 1.1 (2020): 67-81.
Dong L, Shi F, Jelezko F, Wrachtrup J. Sensing and Sensing Applications of Single Electronic Spins. npj Quantum Inf. 2015 Dec;1(1):1-9. doi: 10.1038/npjqi.2015.1.
Pargaonkar, Shravan. "Quality and Metrics in Software Quality Engineering." Journal of Science & Technology 2.1 (2021): 62-69.
Dutt MV, Childress L, Jiang L, Togan E, Maze JR, Jelezko F, Zibrov AS, Hemmer PR, Lukin MD. Quantum register based on individual electronic and nuclear spin qubits in diamond. Science. 2007 Sep 28;316(5829):1312-6. doi: 10.1126/science.1139831.
Pargaonkar, Shravan. "The Crucial Role of Inspection in Software Quality Assurance." Journal of Science & Technology 2.1 (2021): 70-77.
Hwang GW, Cappellaro P. Magnetic Resonance Spectroscopy Using a Nitrogen-Vacancy Spin Sensor. Phys Rev Lett. 2017 Jun 8;118(23):1-5. doi: 10.1103/PhysRevLett.118.237601.
Pargaonkar, Shravan. "Unveiling the Future: Cybernetic Dynamics in Quality Assurance and Testing for Software Development." Journal of Science & Technology 2.1 (2021): 78-84.
Kok P, Lovett BW. Introduction to Optical Quantum Information Processing. Cambridge University Press. 2010 Jan 28.
Pargaonkar, Shravan. "Unveiling the Challenges, A Comprehensive Review of Common Hurdles in Maintaining Software Quality." Journal of Science & Technology 2.1 (2021): 85-94.
Lovchinsky I, Sushkov AO, Urbach E, de Leon NP, Choi S, de Greve K, Evans R, Gertner R, Bersin E, Müller C, McGuinness L. Nuclear Magnetic Resonance Detection and Spectroscopy of Single Proteins Using Quantum Logic. Science. 2016 Dec 9;351(6275):836-41. doi: 10.1126/science.aad8022.
Pargaonkar, S. (2020). A Review of Software Quality Models: A Comprehensive Analysis. Journal of Science & Technology, 1(1), 40-53.
Mamin HJ, Kim M, Sherwood MH, Rettner CT, Ohno K, Awschalom DD, Rugar D. Nanoscale Nuclear Magnetic Resonance with a Nitrogen-Vacancy Spin Sensor. Science. 2013 Jun 28;339(6119):557-60. doi: 10.1126/science.1231540.
Pargaonkar, S. (2020). Bridging the Gap: Methodological Insights from Cognitive Science for Enhanced Requirement Gathering. Journal of Science & Technology, 1(1), 61-66.
Taylor JM, Cappellaro P, Childress L, Jiang L, Budker D, Hemmer PR, Yacoby A, Walsworth RL, Lukin MD. High-sensitivity diamond magnetometer with nanoscale resolution. Nat Phys. 2008 Jan;4(10):810-816. doi: 10.1038/nphys1075.
Pargaonkar, S. (2020). Future Directions and Concluding Remarks Navigating the Horizon of Software Quality Engineering. Journal of Science & Technology, 1(1), 67-81.
Pargaonkar, S. (2021). Quality and Metrics in Software Quality Engineering. Journal of Science & Technology, 2(1), 62-69.
Togan E, Chu Y, Trifonov AS, Jiang L, Maze J, Childress L, Dutt MV, Sørensen AS, Hemmer PR, Zibrov AS, Lukin MD. Quantum entanglement between an optical photon and a solid-state spin qubit. Nature. 2010 Mar 4;466(7307):730-734. doi: 10.1038/nature09256.
Pargaonkar, S. (2021). The Crucial Role of Inspection in Software Quality Assurance. Journal of Science & Technology, 2(1), 70-77.
Pargaonkar, S. (2021). Unveiling the Future: Cybernetic Dynamics in Quality Assurance and Testing for Software Development. Journal of Science & Technology, 2(1), 78-84.
Pargaonkar, S. (2021). Unveiling the Challenges, A Comprehensive Review of Common Hurdles in Maintaining Software Quality. Journal of Science & Technology, 2(1), 85-94.
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