The Tree Pulldown Method: McLaughlin's Conjecture and Beyond
Abstract
This paper finally fully elaborates the tree pulldown method used by one of us (Harrington) to settle McLaughlin's conjecture. This method enables the construction of a computable tree T0 whose paths are incomparable over 0(α) and resemble α-generics while leaving us almost completely free to specify the homeomorphism class of [T0]. While a version of this method for α = ω previously appeared in print we give the general construction for an arbitrary ordinal notation α. We also demonstrate this method can be applied to a `non-standard' ordinal notation to establish the existence of a computable tree whose paths are hyperarithmetically incomparable and resemble α-generics for all α < ω1CK. Finally, we verify a number of corollaries including solutions to problems 57* , 62, 63 (McLaughlin's conjecture), 65 and 71 from Friedman's famous "One Hundred and Two Problems in Mathematical Logic."
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