Author:
Bhar Piyali,Errehymy Abdelghani,Ray Saibal
Abstract
AbstractThe spherically symmetric dark energy (DE) stellar model is presented here within the context of the f(Q) theory of gravity. In order to develop the model, we take into account the linear functional form of f(Q) as $$f(Q)=mQ+n$$
f
(
Q
)
=
m
Q
+
n
, where m is the coupling parameter and n is a real constant. We further assume that the stellar model is composed of normal baryonic matter along with DE; however, for the sake of simplicity, we avoid the interaction between them. The impact of the coupling parameter m on different physical parameters of DE stars (DESs) has been thoroughly investigated. For various values of m specified in the figure, the numerical values of the physical parameters are shown in tabular form. It is found that as m increases, the DES candidates become gradually massive and larger in size. In order to compare the behaviour of DESs with the observational results, we use the measurement of the GW190814 event and the three NS pulsars, viz. 4U1608-52 (mass $$= 1.74_{- 0.14}^{+0.14}~M_{\odot }$$
=
1
.
74
-
0.14
+
0.14
M
⊙
), PSR J1614-2230 (mass $$=1.97_{-0.04}^{+0.04}~M_{\odot }$$
=
1
.
97
-
0.04
+
0.04
M
⊙
), and PSR J0952-0607 (mass $$=2.35_{- 0.17}^{+0.17}~M_{\odot }$$
=
2
.
35
-
0.17
+
0.17
M
⊙
). With the help of the $$M-R$$
M
-
R
plot, the maximum mass of the DES obtained from our model is $$2.57~M_{\odot }$$
2.57
M
⊙
, which is located within the lower “mass gap” range. To cover the observational constraints, this DES can be a representative for the secondary component of the GW190814 event, whose mass range is detected to be $$2.59_{-0.09}^{+0.08}~M_{\odot }$$
2
.
59
-
0.09
+
0.08
M
⊙
by LIGO/VIRGO experiments.
Publisher
Springer Science and Business Media LLC
Subject
Physics and Astronomy (miscellaneous),Engineering (miscellaneous)
Cited by
7 articles.
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