According to Papadima & Suciu (2004) a Malcev Lie algebra is a rational Lie algebra ${\displaystyle L}$  together with a complete, descending ${\displaystyle {\mathbb {Q} }}$ -vector space filtration ${\displaystyle \{F_{r}L\}_{r\geq 1}}$ , such that:

• ${\displaystyle F_{1}L=L}$ 
• ${\displaystyle [F_{r}L,F_{s}L]\subset F_{r+s}L}$ 
• the associated graded Lie algebra ${\displaystyle \oplus _{r\geq 1}F_{r}L/F_{r+1}L}$  is generated by elements of degree one.

Relation to Hopf algebras edit

Quillen (1969, Appendix A3) showed that Malcev Lie algebras and Malcev groups are both equivalent to complete Hopf algebras, i.e., Hopf algebras H endowed with a filtration so that H is isomorphic to ${\displaystyle \varprojlim H/F_{n}H}$ . The functors involved in these equivalences are as follows: a Malcev group G is mapped to the completion (with respect to the augmentation ideal) of its group ring QG, with inverse given by the group of grouplike elements of a Hopf algebra H, essentially those elements 1 + x such that ${\displaystyle \Delta (x)=x\otimes x}$ . From complete Hopf algebras to Malcev Lie algebras one gets by taking the (completion of) primitive elements, with inverse functor given by the completion of the universal enveloping algebra.

This equivalence of categories was used by Goodwillie (1986) to prove that, after tensoring with Q, relative K-theory K(A, I), for a nilpotent ideal I, is isomorphic to relative cyclic homology HC(A, I). This theorem was a pioneering result in the area of trace methods.

Hodge theory edit

Malcev Lie algebras also arise in the theory of mixed Hodge structures.

• Goodwillie, Thomas G. (1986), "Relative algebraic K-theory and cyclic homology", Annals of Mathematics, Second Series, 124 (2): 347–402, doi:10.2307/1971283, JSTOR 1971283, MR 0855300
• Mal'cev, A. I. (1949), "Nilpotent torsion-free groups", Izvestiya Akademii Nauk SSSR. Seriya Matematicheskaya, 13: 201–212, ISSN 0373-2436, MR 0028843
• Papadima, Stefan; Suciu, Alexander I. (2004), "Chen Lie algebras", International Mathematics Research Notices, 2004 (21): 1057–1086, arXiv:math/0307087, doi:10.1155/S1073792804132017, ISSN 1073-7928, MR 2037049
• Quillen, Daniel (1969), "Rational homotopy theory", Annals of Mathematics, Second Series, 90 (2): 205–295, doi:10.2307/1970725, ISSN 0003-486X, JSTOR 1970725, MR 0258031