Computational Approaches to the Singer Transfer: Preimages in the Lambda Algebra and Gk-Invariant Theory

Abstract

We present a systematic, algorithmic method to compute the preimage of elements under the Singer algebraic transfer. Using the lambda algebra and the invariant-theoretic formula of P.H. Chon and L.M. Ha [5], we formulate the preimage search as a solvable problem in linear algebra. This framework is applied to study key indecomposable elements in the Adams spectral sequence. As a consequence, we show that the proof of the known result that the indecomposable element d0 ∈ Ext4,18 A( Z/2, Z/2). lies in the image of the fourth Singer transfer, as given by Nguyen Sum in [17], is false. Furthermore, we provide the explicit description of a preimage for the indecomposable element p0 ∈ Ext4,37 A( Z/2, Z/2). This preimage had not been explicitly determined in the previous work of N.H.V. Hung and V.T.N. Quynh [8]. Finally, our most significant contribution is the construction of a complete SageMath algorithm that fully automates the computation of both the dimension and an explicit basis for the Gk-invariant space [(QPk)d]Gk. This tool facilitates the verification of our results [11, 12, 13] that were previously computed manually in connection with Singer's conjecture for rank 4.