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Given a finite lattice L that can be embedded in the recursively enumerable (r.e.) Turing degrees
$\langle \mathcal {R}_{\mathrm {T}},\leq _{\mathrm {T}}\rangle $
, we do not in general know how to characterize the degrees
$\mathbf {d}\in \mathcal {R}_{\mathrm {T}}$
below which L can be bounded. The important characterizations known are of the
$L_7$
and
$M_3$
lattices, where the lattices are bounded below
$\mathbf {d}$
if and only if
$\mathbf {d}$
contains sets of “fickleness”
$>\omega $
and
$\geq \omega ^\omega $
respectively. We work towards finding a lattice that characterizes the levels above
$\omega ^2$
, the first non-trivial level after
$\omega $
. We introduced a lattice-theoretic property called “
$3$
-directness” to describe lattices that are no “wider” or “taller” than
$L_7$
and
$M_3$
. We exhaust the 3-direct lattices L, but they turn out to also characterize the
$>\omega $
or
$\geq \omega ^\omega $
levels, if L is not already embeddable below all non-zero r.e. degrees. We also considered upper semilattices (USLs) by removing the bottom meet(s) of some 3-direct lattices, but the removals did not change the levels characterized. This leads us to conjecture that a USL characterizes the same r.e. degrees as the lattice on which the USL is based. We discovered three 3-direct lattices besides
$M_3$
that also characterize the
$\geq \omega ^\omega $
-levels. Our search for a
$>\omega ^2$
-candidate therefore involves the lattice-theoretic problem of finding lattices that do not contain any of the four
$\geq \omega ^\omega $
-lattices as sublattices.