07 November 2016 1 878 Report

There are two leptonic mass matrices obtained while working in Inverse seesaw regime,

1. M\nu = {{0, mD, 0} ,{mDT, 0, M}, {0,  MT, \mu}},

2. M\nu = {{0, mDT, 0}, {mD, 0, MT}, {0, M , \mu}}.

After block diagonalizing them we get one of the eigenvalues from each of the above two matrices as,

(a) m\nu = mDM-1 \mu MT^-1mDT

(b) m\nu = mDTMT^-1 \mu M-1mD

Now, how do we explain the phenomenological behaviours shown by the above  two matrices(1,2) and their corresponding eigenvalues(a,b).

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