Non-classical properties of photon-added-and-subtracted two-mode pair coherent state
PDF (Vietnamese)

Keywords

Trạng thái kết hợp cặp
trạng thái kết hợp cặp thêm và bớt photon hai mode
tính chất nén tổng hai mode
tính chất nén hiệu hai mode
tính chất phản kết chùm hai mode bậc cao Pair coherent state
photon-added-and-subtracted two modes pair coherent state
two-mode sum squeezing
two-mode difference squeezing
higher-order two-mode antibunching

How to Cite

1.
Hồ SC, Hồ NT, Trương M Đức. Non-classical properties of photon-added-and-subtracted two-mode pair coherent state. hueuni-jns [Internet]. 2022Mar.31 [cited 2024Nov.23];131(1A):75-83. Available from: http://222.255.146.83/index.php/hujos-ns/article/view/6508

Abstract

In this paper, we study the non-classical properties such as two-mode sum squeezing, two-mode difference squeezing, and higher-order two-mode antibunching properties of the photon-added-and-subtracted two-mode pair coherent state (PAASTMPCS). The results in the squeezing property show that the PAASTMPCS has two-mode sum squeezing but no two-mode difference squeezing. The two-mode sum squeezing of the PAASTMPCS always appears when adding and subtracting photons to two modes of a pair coherent state (PCS). Furthermore, the PAASTMPCS has higher-order two-mode antibunching in any order, and this property is enhanced when photons are simultaneously added and subtracted to two modes of the PCS. Thereby, the role of the photon addition and the photon subtraction has been confirmed by enhancing the non-classical properties of the PAASTMPCS.

https://doi.org/10.26459/hueunijns.v131i1A.6508
PDF (Vietnamese)

References

  1. Mandel L. Non-Classical States of the Electro-magnetic Field. Physica Scripta. 1986;T12:34-42.
  2. Hillery M. Sum and difference squeezing of the electromagnetic field. Physical Review A. 1989; 40:3147-3155.
  3. An NB. Multimode higher-order antibunching and squeezing in trio coherent states. Journal of Optics B: Quantum and Semiclassical Optics. 2002;4(3):222- 227.
  4. Duc TM, Hoai NTX, An NB. Sum Squeezing, Difference Squeezing, Higher-Order Antibunching and Entanglement of Two-Mode Photon-Added Displaced Squeezed States. Int J Theor Phys. 2014; 53:899-910.
  5. Duc TM, and Noh J. Higher-order properties of photon-added coherent states. Opt. Commun. 2008;
  6. (10):2842-2848.
  7. Lee CT. Many-photon antibunching in generalized pair coherent states. Physical Review A. 1990;41: 1569-1575.
  8. Glauber RJ. Coherent and Incoherent States of the Radiation Field. Physical Review. 1963;131(6):2766-2788.
  9. Sudarshan ECG. Equivalence of semiclassical and quantum mechanical descrlptions of statistical light beams. Physical Review Letters. 1963;10(7):277-279.
  10. Agarwal GS. Generation of pair coherent states and squeezing via the competition of four-wave mixing and amplified spontaneous emission. Phys Rev Lett. 1986;57(7):827-830.
  11. Agarwal GS. Nonclassical statistics of fields in pair coherent states. Journal of the Optical Society of America B. 1988;5:1940-1947.
  12. Agarwal GS, Tara K. Nonclassical properties of states generated by the excitations on a coherent state. Physical Review A. 1991;43(1):492-497.
  13. Hong L, Guang-can G. Nonclassical properties of photon-added pair coherent states. Acta Physica Sinica (Overseas Edn). 1999;8(8):577-582.
  14. Zavatta A. Quantum-to-Classical Transition with Single-Photon-Added Coherent States of Light. Science. 2004;306(5696):660-662.
  15. Zavatta A, Viciani S, Bellini M. Single-photon excitation of a coherent state: catching the elementary step of stimulated light emission. Phys Rev A. 2005;72(2):023820(1-9).
  16. Wang D, Li M, Zhu F, Yin Z, Chen W, Han Z, Guo G, Wang Q. Quantum key distribution with the single-photon-added coherent source. Physical Review A. 2014;90(6):062315(1-8).
  17. Hoai NTX, Duc TM. Nonclassical properties and teleportation in the two-mode photon-added displaced squeezed states. International Journal of Modern Physics B. 2016;30:1650032(1-15).
  18. Dinh DH, Duc TM. Sum squeezing, difference squeezing and higher-order antibunching properties of two-mode even and odd charge coherent states. Hue University Journal of Science: Natural Science. 2016;117(3):15-24.
  19. Duc TM, Dinh DH, Dat TQ. Higher-order nonclassical properties of nonlinear charge pair cat states. Journal of Physics B: Atomic, Molecular and Optical Physics. 2019;53(2):025402(1-11).
  20. Duc TM, Dat TQ, Chuong HS. Quantum entanglement and teleportation in superposition of multiple-photon-added two-mode squeezed vacuum state. International Journal of Modern Physics B. 2020;34(25):2050223(1-9).
  21. Dat TQ, Duc TM. Nonclassical Properties of the Superposition of Three-Mode Photon-Added Trio Coherent State. International Journal of Theoretical Physics. 2020;59:3206-3216.
  22. Dat TQ, Duc TM. Higher-order nonclassical and entanglement properties in photon-added trio coherent state. Hue University Journal of Science: Natural Science. 2020;129(1B):49-55.
  23. Duc TM, Dat TQ. Enhancing nonclassical and entanglement properties of trio coherent states by photon-addition. Optik. 2020;210:164479(1-11).
  24. Truong DM, Ho CS, Tran DQ. Detecting nonclassicality and non-Gaussianity by the Wigner function and quantum teleportation in photon-added-and-subtracted two modes pair coherent state. Journal of Computational Electronics. 2021;20(6):2124-34
  25. Schnabel R. Squeezed states of light and their applications in laser interferometers. Physics Reports. 2017;684:1-51.
  26. Aasi J, Abadie J, Abbott BP, Abbott R, Abbott TD, Abernathy MR, et al. Enhanced sensitivity of the LIGO gravitational wave detector by using squeezed states of light. Nature Photonics. 2013;7(8):613-619.
  27. Sabapathy KK, Winter A. Non-Gaussian operations on bosonic modes of light: Photon-added Gaussian channels. Physical Review A. 2017;95(6):062309(1-17).
Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Copyright (c) 2021 Array