Quantum Cryptography Experiment using Optical Devices
The study of quantum cryptography is one of the great interest. A straightforward and reliable quantum experiment is provided in this paper. A half wave plate in linearly polarized light makes up a simplified polarization rotator. The polarization rotates twice as much as the half wave plate's...
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my.uthm.eprints.85962023-05-02T02:10:28Z http://eprints.uthm.edu.my/8596/ Quantum Cryptography Experiment using Optical Devices Azahar, Nur Shahirah Harun, Nur Ziadah T Technology (General) The study of quantum cryptography is one of the great interest. A straightforward and reliable quantum experiment is provided in this paper. A half wave plate in linearly polarized light makes up a simplified polarization rotator. The polarization rotates twice as much as the half wave plate's fast axis' angle with the polarization plane when the half wave plate is rotated. Here, an experiment of message sharing is conducted to demonstrate quantum communication between parties. The unitary transformation is performed step by stepusing half-wave plates represented by the Mueller matrix. A simulation created using Python programming has been used to test the proposed protocol's implementation. Python was chosen because it can mathematically imitate the quantum state of superposition. 2023 Article PeerReviewed text en http://eprints.uthm.edu.my/8596/1/J15772_c9e4ec00869a380df7a7b0cec08daba7.pdf Azahar, Nur Shahirah and Harun, Nur Ziadah (2023) Quantum Cryptography Experiment using Optical Devices. International Journal of Advanced Computer Science and Applications, 14 (1). pp. 1-6. |
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The study of quantum cryptography is one of the great interest. A straightforward and reliable quantum experiment is provided in this paper. A half wave plate in linearly polarized light makes up a simplified polarization rotator. The polarization rotates twice as much as the half wave plate's fast axis' angle with the polarization plane when the half wave plate is rotated. Here, an experiment of message sharing is conducted to demonstrate quantum communication between parties. The unitary transformation is performed step by stepusing half-wave plates represented by the Mueller matrix. A simulation created using Python programming has been used to test the proposed protocol's implementation. Python was chosen because it can mathematically imitate the quantum state of superposition. |
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Azahar, Nur Shahirah Harun, Nur Ziadah |
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Azahar, Nur Shahirah Harun, Nur Ziadah |
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Azahar, Nur Shahirah |
title |
Quantum Cryptography Experiment using Optical Devices |
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Quantum Cryptography Experiment using Optical Devices |
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Quantum Cryptography Experiment using Optical Devices |
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Quantum Cryptography Experiment using Optical Devices |
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Quantum Cryptography Experiment using Optical Devices |
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quantum cryptography experiment using optical devices |
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2023 |
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http://eprints.uthm.edu.my/8596/1/J15772_c9e4ec00869a380df7a7b0cec08daba7.pdf http://eprints.uthm.edu.my/8596/ |
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