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We have presented a pathway to map the internal structure of lowest-lying
octet baryons by using one-loop quantum fluctuations of a fermion state in
Yukawa theory. The structural interpretation of baryons carrying different
amount of strange content has been exemplified by employing a quark-scalar
diquark model for studying the Generalized Parton Distributions (GPDs) among
the members of octet baryons. Different possible combinations of quark-scalar
diquark pairs have been considered. The quark helicity independent chiral even
GPDs in momentum as well as impact parameter space have been studied for purely
transverse momentum transfer (zero skewness). We have also extended our
calculations to explore and visualize the distinct behavior of charge
distributions in coordinate space as well as charge densities in impact
parameter space. Furthermore, magnetization density in impact parameter space
has also been investigated. Quantitative as well as qualitative analysis of all
the distributions has been carried out.
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