The motivic lambda algebra and motivic Hopf invariant one problem
Abstract
We investigate forms of the Hopf invariant one problem in motivic homotopy theory over arbitrary base fields of characteristic not equal to 2. Maps of Hopf invariant one classically arise from unital products on spheres, and one consequence of our work is a classification of motivic spheres represented by smooth schemes admitting a unital product. The classical Hopf invariant one problem was resolved by Adams, following his introduction of the Adams spectral sequence. We introduce the motivic lambda algebra as a tool to carry out systematic computations in the motivic Adams spectral sequence. Using this, we compute the E2-page of the R-motivic Adams spectral sequence in filtrations f ≤ 3. This universal case gives information over arbitrary base fields. We then study the 1-line of the motivic Adams spectral sequence. We produce differentials d2(ha+1) = (h0+ h1)ha2 over arbitrary base fields, which are motivic analogues of Adams' classical differentials. Unlike the classical case, the story does not end here, as the motivic 1-line is significantly richer than the classical 1-line. We determine all permanent cycles on the R-motivic 1-line, and explicitly compute differentials in the universal cases of the prime fields Fq and Q, as well as Qp and R.
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