Research article

Geometry of configurations in tangent groups

  • Received: 05 October 2019 Accepted: 27 November 2019 Published: 09 December 2019
  • MSC : 11G55, 18G, 19D

  • This article relates the Grassmannian complexes of geometric configurations to the tangent to the Bloch-Suslin complex and to the tangent to Goncharov's motivic complex. By means of morphisms, we bring the geometry of configurations in tangent groups, $T\mathcal{B}_2(F)$ and $T\mathcal{B}_3(F)$ that produce commutative diagrams. To show the commutativity of diagrams, we use combinatorial techniques that include permutations in symmetric group S6. We also create analogues of the Siegel's cross-ratio identity for the truncated polynomial ring F[ε]ν.V

    Citation: Raziuddin Siddiqui. Geometry of configurations in tangent groups[J]. AIMS Mathematics, 2020, 5(1): 522-545. doi: 10.3934/math.2020035

    Related Papers:

  • This article relates the Grassmannian complexes of geometric configurations to the tangent to the Bloch-Suslin complex and to the tangent to Goncharov's motivic complex. By means of morphisms, we bring the geometry of configurations in tangent groups, $T\mathcal{B}_2(F)$ and $T\mathcal{B}_3(F)$ that produce commutative diagrams. To show the commutativity of diagrams, we use combinatorial techniques that include permutations in symmetric group S6. We also create analogues of the Siegel's cross-ratio identity for the truncated polynomial ring F[ε]ν.V


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    [8] S. Ünver, On the additive dilogarithm, Algebr. Number Theory, 3 (2009), 1-34. doi: 10.2140/ant.2009.3.1
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