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Center for Photon Information Processing (PIP)
GIST
Journal Publications
2024
1. B. S. Ham, “Phase-controlled coherent photons for the quantum correlations in a delayed-choice quantum eraser,” Sci. Rep. 13, 12925 (Jan. 19, 2024).
2. B. S. Ham, "Coherently excited superresolution using intensity product of phase-controlled quantum erasers via polarization-basis projection measurements," Sci. Rep. 14, 11521 (May 21, 2024).
3. B. S. Ham, "Intensity-product-based optical sensing to beat the diffraction limit in an interferometer," Sensors 24, 5041 (Aug. 1, 2024).
2023
1. B. S. Ham, “Coherently driven quantum features using a linear optics-based polarization-basis control,” Sci. Rep. 13, 12925 (Aug. 9, 2023).
2. S. Kim and B. S. Ham, “Observations of the delayed-choice quantum eraser using coherent photons,” Sci. Rep. 13, 9758 (Jane. 16, 2023).
3. S. Kim and B. S. Ham, “Revisiting self‑interference in Young’s double‑slit experiments,” Sci. Rep. 13, 977 (Jan. 18, 2023).
2022
1. B. S. Ham, "A quantum ring laser gyroscope based on coherence de Broglie waves,” Sensors 22, 8687 (Nov. 10, 2022).
2. B. S. Ham, "Analysis of imperfect rephrasing in photon echo-based quantum memories,” Entropy 24, 1367 (Sep. 27, 2022).
3. J.-H. Park, W. T. Kim, W. Won, J.-H. Kang, S. Lee, P-G. Park, B. S. Ham, Y. Jo, F. Rotermund, K.-J. Kim, “Observation of spin-glass-like characteristics in ferrimagnetic TbCo through energy-levelselective Approach,” Nature Communi. 13, 5530 (Sep. 21, 2022).
4. B. S. Ham, "Randomness-based macroscopic Franson-type nonlocal correlation,” Sci. Rep. 12, 3759 (March. 8, 2022).
5. B. S. Ham, "Network-compatible unconditionally secured classical key distribution via quantum superposition-induced deterministic randomness,” Cryptography 2022, 4 (Jan. 21, 2022).
2021
1. B. S. Ham, "Analysis of phase noise effects in a coupled Mach-Zehnder interferometer for a much stabilized free-space optical link,"
Sci. Rep. 11, 1900 (Jan. 21, 2021).
2. B. S. Ham, "Experimental demonstrations of unconditional security in a purely classical regime," Sci. Rep. 11, 4149 (Feb. 18, 2021).
3. B. S. Ham, "Coherently controlled quantum features in a coupled interferometric scheme," Sci. Rep. Vol. 11, 11188 (May 27, 2021).
4. B. S. Ham, "Macroscopically entangled light fields," Sci. Rep. Vol. 11, 11388 (May 31, 2021).
5. B. S. Ham, "Macroscopic and deterministic quantum feature generation via phase basis quantization in a cascaded interferometric system,” Sci. Rep. Vol. 11, 19058 (Sep. 24, 2021).
6. B. S. Ham, "A nonclassical Sagnac interferometer using coherence de Broglie waves," Adv. Dev. & Inst. Vol. 2021, 9862831 (Nov. 3, 2021).
2020
1. B. S. Ham, "The Origin of anticorrelation for photon bunching on a beam splitter," Scientific Reports 10, 7309 (April 30, 2020).
2. B. S. Ham, "Unconditionally secured classical cryptography using quantum superposition and unitary transformation," Scientific
Reports 10, 11687 (Jyly 15, 2020).
3. B. S. Ham, "Deterministic control of photonic de Broglie waves using coherence optics," Scientific Reports 10, 12899 (July 30, 2020).
4. R. Ullah and B. S. Ham, "Understanding of collective atom phase control in modified photon echoes for a near-perfect storage time-
extended quantum memory," Entropy 22, 900 (August 15, 2020).
5. R. Ullah and B. S. Ham, “Analysis of controlled Rabi flopping in a double rephrasing photon echo scheme for quantum memories,”
Entropy 22, 1007 (Sep. 7, 2020).
6. B. S. Ham, "Analysis of nonclassical features in a coupled macroscopic binary system," New J. Phys. 22, 123043 (Dec. 30, 2020).
Details: https://scholar.google.co.kr/citations?user=p5H2mysAAAAJ&hl=en
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