Journal
LASER PHYSICS
Volume 33, Issue 4, Pages -Publisher
IOP Publishing Ltd
DOI: 10.1088/1555-6611/acb922
Keywords
new angular momentum state; nonclassicality; Wigner distribution; entanglement
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In this study, a new angular momentum state is introduced through the bosonic operator realization of angular momentum operators on a number state. The nonclassicality of this state is then investigated based on the sub-Poissonian distribution, photon number distribution, entanglement entropy, and Wigner distribution. The results demonstrate that the nonclassicality of the new state is stronger for odd q compared to even q, and that the nonclassicality initially increases and then weakens with increasing g for any q. Additionally, the entanglement consistently increases with increasing q for all values of g, and reaches a maximum when g and h fall within certain ranges and q is sufficiently large.
We theoretically introduce a new angular momentum state via the bosonic operator realization of angular momentum operators on a number state, and study its nonclassicality based on the sub-Poissonian distribution, photon number distribution, entanglement entropy and Wigner distribution. The results show that the nonclassicality of the new state for odd q is more stronger than that for even q, and the nonclassicality for any q always enhances first and then weakens with increasing g. Besides, the entanglement always increases with the increase of q for all of g, and finally reaches a maximum when g and h are in certain value ranges and q is large enough.
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