In nuclear physics, the symmetry energy reflects the variation of the binding energy of the nucleons in the nuclear matter depending on its neutron to proton ratio as a function of baryon density. Symmetry energy is an important parameter in the equation of state describing the nuclear structure of heavy nuclei and neutron stars.[1][2][3][4]
References
[edit]- ^ Baldo, M.; Burgio, G. F. (November 2016). "The nuclear symmetry energy". Progress in Particle and Nuclear Physics. 91: 203–258. arXiv:1606.08838. Bibcode:2016PrPNP..91..203B. doi:10.1016/j.ppnp.2016.06.006. S2CID 119216703.
- ^ Tsang, M. B.; Zhang, Y.; Danielewicz, P.; Famiano, M.; Li, Z.; Lynch, W. G.; Steiner, A. W. (2009). "Constraints on the Density Dependence of the Symmetry Energy". Physical Review Letters. 102 (12): 122701. arXiv:0811.3107. Bibcode:2009PhRvL.102l2701T. doi:10.1103/PhysRevLett.102.122701. PMID 19392271.
- ^ Tsang, M. B.; et al. (September 2010). "Constraints on the Density Dependence of the Symmetry Energy". International Journal of Modern Physics E. 19 (8n09): 1631–1638. arXiv:0811.3107. Bibcode:2010IJMPE..19.1631T. doi:10.1142/S0218301310016041. ISSN 0218-3013.
- ^ Lattimer, J. M. (January 2023). "Constraints on Nuclear Symmetry Energy Parameters". Particles. 6 (12): 30–56. arXiv:2301.03666. Bibcode:2023Parti...6...30L. doi:10.3390/particles6010003.
Well, that’s interesting to know that Psilotum nudum are known as whisk ferns. Psilotum nudum is the commoner species of the two. While the P. flaccidum is a rare species and is found in the tropical islands. Both the species are usually epiphytic in habit and grow upon tree ferns. These species may also be terrestrial and grow in humus or in the crevices of the rocks.
View the detailed Guide of Psilotum nudum: Detailed Study Of Psilotum Nudum (Whisk Fern), Classification, Anatomy, Reproduction