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COLLAPSE, REVIVAL AND QUANTUM SELF-TRAPPING OF ORBITAL ANGULAR MOMENTUM
Maqola haqida umumiy ma'lumotlar
Rabi oscillations and two associated effects of collapse-revival (CR) and quantum self-trapping (QST) arise in the coupling of two states. We analyze Rabi oscillations of orbital angular momentum (OAM) internally coupled fields confined in an infinite circular quantum well. As such, our model system corresponds to exciton-polaritons in etched micropillar fed by pulse excitations carrying topological charges in the linear regime; the discreteness of OAM shifts the Rabi frequency and induces the CR of OAM oscillations akin to CR in quantum optics. In nonlinear regime, interactions suppress the transfer of OAM, leading the self-trapping of AOM in one component. Imparting linear momentum too, leads to OAM randomness in the output beam. Our findings open research lines for manipulating of OAM based on non-classical states in micropillars
- Shore, B. W., & Knight, P. L. (1993). The Jaynes-cummings model. Journal of Modern Optics, 40(7), 1195-1238.
- Jaynes, E. T., & Cummings, F. W. (1963). Comparison of quantum and semi classical radiation theories with application to the beam maser. Proceedings of the IEEE, 51(1), 89-109.
- Knight, P. L., & Milonni, P. W. (1980). The Rabi frequency in optical spectra. Physics Reports, 66(2), 21-107.
- Dudin, Y. O., Li, L., Bariani, F., & Kuzmich, A. (2012). Observation of coherent many-body Rabi oscillations. Nature Physics, 8(11), 790-794.
- Martinis, J. M., Nam, S., Aumentado, J., & Urbina, C. (2002). Rabi oscillations in a large Josephson-junction qubit. Physical review letters, 89(11), 117901.
- Pileio, G., Carravetta, M., & Levitt, M. H. (2009). Extremely low-frequency spectroscopy in low-field nuclear magnetic resonance. Physical review letters, 103(8), 083002.
- Stievater, T. H., Li, X., Steel, D. G., Gammon, D., Katzer, D. S., Park, D., & Sham, L. J. (2001). Rabi oscillations of excitons in single quantum dots. Physical Review Letters, 87(13), 133603.
- Petta, J. R., Johnson, A. C., Taylor, J. M., Laird, E. A., Yacoby, A., Lukin, M. D., ... & Gossard, A. C. (2005). Coherent manipulation of coupled electron spins in semiconductor quantum dots. Science, 309(5744), 2180-2184.
- Deng, H., Haug, H., & Yamamoto, Y. (2010). Exciton-polariton bose-einstein condensation. Reviews of modern physics, 82(2), 1489.
- Matthews, M. R., Anderson, B. P., Haljan, P. C., Hall, D. S., Holland, M. J., Williams, J. E., ... & Cornell, E. A. (1999). Watching a superfluid untwist itself: Recurrence of Rabi oscillations in a Bose-Einstein condensate. Physical review letters, 83(17), 3358.
- Cundiff, S., & Kira, M. (2020). Semiconductor quantum science and technology. Academic Press.
- Sanvitto, D., & Kéna-Cohen, S. (2016). The road towards polaritonic devices. Nature materials, 15(10), 1061-1073.
- Dominici, L., Colas, D., Donati, S., Cuartas, J. R., De Giorgi, M., Ballarini, D., & Sanvitto, D. (2014). Ultrafast control and Rabi oscillations of polaritons. Physical review letters, 113(22), 226401.
- Colas, D., Dominici, L., Donati, S., Pervishko, A. A., Liew, T. C., Shelykh, I. A., & Sanvitto, D. (2015). Polarization shaping of Poincaré beams by polariton oscillations. Light: Science & Applications, 4(11), e350-e350.
- Rahmani, A., & Laussy, F. P. (2016). Polaritonic rabi and josephson oscillations. Scientific Reports, 6(1), 28930.
- Colas, D., & Laussy, F. P. (2016). Self-interfering wave packets. Physical Review Letters, 116(2), 026401.
- Dominici, L., Colas, D., Gianfrate, A., Rahmani, A., Ardizzone, V., Ballarini, D., ... & Voronova, N. (2021). Full-Bloch beams and ultrafast Rabi-rotating vortices. Physical Review Research, 3(1), 013007.
- Dominici, L., Voronova, N., Colas, D., Gianfrate, A., Rahmani, A., Ardizzone, V... & Sanvitto, D. (2021). Shaping the topology of light with a moving Rabi-oscillating vortex. Optics Express, 29(23), 37262-37280.
- Eberly, J. H., Narozhny, N. B., & Sanchez-Mondragon, J. J. (1980). Periodic spontaneous collapse and revival in a simple quantum model. Physical Review Letters, 44(20), 1323.
- Greiner, M., Mandel, O., Hänsch, T. W., & Bloch, I. (2002). Collapse and revival of the matter wave field of a Bose–Einstein condensate. Nature, 419(6902), 51-54.
- Griggs, D., Stafford-Smith, M., Gaffney, O., Rockström, J., Öhman, M. C., Shyamsundar, P... & Noble, I. (2013). Sustainable development goals for people and planet. Nature, 495(7441), 305-307.
- Brune, M., Hagley, E., Dreyer, J., Maitre, X., Maali, A., Wunderlich, C... & Haroche, S. (1996). Observing the progressive decoherence of the “meter” in a quantum measurement. Physical review letters, 77(24), 4887.
- Raghavan, S., Smerzi, A., Fantoni, S., & Shenoy, S. R. (1999). Coherent oscillations between two weakly coupled Bose-Einstein condensates: Josephson effects, π oscillations, and macroscopic quantum self-trapping. Physical Review A, 59 (1), 620.
- Abbarchi, M., Amo, A., Sala, V. G., Solnyshkov, D. D., Flayac, H., Ferrier, L., ... & Bloch, J. (2013). Macroscopic quantum self-trapping and Josephson oscillations of exciton polaritons. Nature Physics, 9(5), 275-279.
- Mahan, G. D. (2000). Many-particle physics. Springer Science & Business Media.
- Byrnes, T., Kim, N. Y., & Yamamoto, Y. (2014). Exciton–polariton condensates. Nature Physics, 10(11), 803-813.
- Myers, D. M., Wuenschell, J. K., Ozden, B., Beaumariage, J., Snoke, D. W., Pfeiffer, L., & West, K. (2017). Edge trapping of exciton-polariton condensates in etched pillars. Applied Physics Letters, 110(21).
- Estrecho, E. (2021). Laser trapping and manipulation of exciton–polariton quantum fluids. Nature Reviews Physics, 3(8), 536-536.
Tayeb, H. ., & Farahi, M. . (2023). COLLAPSE, REVIVAL AND QUANTUM SELF-TRAPPING OF ORBITAL ANGULAR MOMENTUM. Academic Research in Educational Sciences, 4(10), 51–59. https://doi.org/
Tayeb, Hamed, and Mohammad Hussain Farahi,. “COLLAPSE, REVIVAL AND QUANTUM SELF-TRAPPING OF ORBITAL ANGULAR MOMENTUM.” Academic Research in Educational Sciences, vol. 10, no. 4, 2023, pp. 51–59, https://doi.org/.
Tayeb, . and Farahi, . 2023. COLLAPSE, REVIVAL AND QUANTUM SELF-TRAPPING OF ORBITAL ANGULAR MOMENTUM. Academic Research in Educational Sciences. 10(4), pp.51–59.