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Finite-dimensional odd Hamiltonian superalgebras over a field of prime characteristic

Published online by Cambridge University Press:  09 April 2009

Wende Liu
Affiliation:
Department of MathematicsHarbin Normal UniversityHarbin 150080ChinaandDepartment of MathematicsNortheast Normal UniversityChangchun 130024China e-mail: wendeliu@sohu.com
Yongzheng Zhang
Affiliation:
Department of MathematicsHarbin Normal UniversityHarbin 150080China e-mail: zhyz@nenu.edu.cn
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Abstract

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Let ℋ(m;t) be the finite-dimensional odd Hamiltonian superalgebra over a field of prime characteristic. By determining ad-nilpotent elements in the even part, the natural filtration of ℋ (m;t) is proved to be invariant in the following sense: If ϕ: ℋ (m;t) → ℋ (m′t′) is an isomorphism then ϕ(ℋ(m;t)i) = ℋ (m′ t′) i for all i ≥ –1. Using the result, we complete the classification of odd Hamiltonian superalgebras. Finally, we determine the automorphism group of the restricted odd Hamiltonian superalgebra and give further properties.

Type
Research Article
Copyright
Copyright © Australian Mathematical Society 2005

References

[1]Berezin, F. A. and Marinov, M. S., ‘Particle spin dynamics as the grassmann varlant of classical mechanics’, Ann. Physics 104 (1977), 336362.Google Scholar
[2]Block, R. E. and Wilson, R. L., ‘Classification of the restricted simple Lie algebras’, J. Algebra 114 (1988), 115259.Google Scholar
[3]Jacobson, N., Lie algebras (Interscience, New York, 1962).Google Scholar
[4]Jin, N., ‘Ad-nilpotent elements, quasi-nilpotent elements and invariant filtrations of infinitedimensional Lie algebras of Cartan-type’, Sci. China Ser. A 35 (1992), 11911200.Google Scholar
[5]Kac, V.G., ‘On the classification of the simple Lie algebras over a field with nonzero characteristic’, Math. USSR Izv. 4 (1970), 391413.Google Scholar
[6]Kac, V.G., ‘Description of filtered Lie algebras with which graded Lie algebras of Cartan-type are associated’, Math. USSR lzv. 8 (1974), 801835.CrossRefGoogle Scholar
[7]Kav, V.G., ‘Lie superaigebras’, Adv. Math. 26 (1977), 896.Google Scholar
[8]Kac, V.G., ‘Classification of infinite-dimensional simple linearly compact Lie superaigebras’, Adv. Math. 139 (1998), 155.Google Scholar
[9]Kochetkov, Yu., ‘Induced irreducible representations of Leites superaigebras’, in: Problem in group theory and homological algebra 139 (Yaroslav. Gos. Univ., Yaroslavl, 1983) pp. 120123. (in Russian).Google Scholar
[10]Kostrikin, A. I. and Shafarevic, I. R., ‘Graded Lie algebras of finite characteristic’, Math. USSR lzv. 3 (1969), 237304.CrossRefGoogle Scholar
[11]Leites, D. A., ‘New Lie superalgebras and mechanics’, Dokl. Akad. Nauk SSSR 236 (1977), 804807.Google Scholar
English translation: Soviet Math. Dokl. (5), 18 (1977), 12771280.Google Scholar
[12]Leites, D. A., ‘Automorphisms and real forms of simple Lie superalgebras of formal vector fields’, in: Problem in group theory and homological algebra 139 (Yaroslav. Gos. Univ., Yaroslavl, 1983) pp. 126128. (in Russian).Google Scholar
[13]Petrogradski, V. M., ‘Identities in the enveloping algebras for modular Lie superalgebras’, J. Algebra 145 (1992), 121.CrossRefGoogle Scholar
[14]Rudakov, A. N., ‘Subalgebras and automorphisms of Lie algebras of Cartan-type’, Funktsional. Anal. Prilozhen. 20 (1986), 8384 (in Russian).Google Scholar
[15]Scheunert, M., Theory of Lie superalgebras, Lectures Notes in Math. 716 (Springer, Berlin, 1979).Google Scholar
[16]Shen, G.-Y., ‘An intrinsic property of the Lie algebra K(m, )’, Chin. Ann. Math. 2 (1981), 104107.Google Scholar
[17]Strade, H., ‘The classification of the simple modular Lie algebras: IV. Determining of the associated graded algebra’, Ann. of Math. (2) 138 (1993), 159.Google Scholar
[18]Strade, H. and Farnsteiner, R., Modular Lie algebras and their representations (Marcel Dekker, 1988).Google Scholar
[19]Wilson, R. L., ‘Classification of generalized Witt algebras over algebraically closed fields’, Trans. Amer Math. Soc. 153 (1971), 191210.CrossRefGoogle Scholar
[20]Wilson, R. L., ‘Automorphisms of graded Lie algebras of Cartan type’, Comnun. Algebra 3 (1975), 591613.CrossRefGoogle Scholar
[21]Wilson, R. L., ‘A structural characterization of the simple Lie algebras of generalized Cartan-type over fields of prime characteristic’, J. Algebra 40 (1976), 418465.CrossRefGoogle Scholar
[22]Wilson, R. L., ‘Simple Lie algebras of type S’, J. Algebra 62 (1980), 292298.Google Scholar
[23]Zhang, Y.-Z., ‘Finite-dimensional Lie superalgebras of Cartan-type over fields of prime characteristic’, Chin. Sci. Bull. 42 (1997), 720724.CrossRefGoogle Scholar
[24]Zhang, Y.-Z. and Fu, H.-C., ‘Finite-dimensional hamiltonian Lie superalgebras’, Commun. Algebra 30 (2002), 26512673.Google Scholar
[25]Zhang, Y.-Z. and Nan, J.-Z., ‘Finite-dimensional Lie superalgebras W(m, n, ) and S(m, n, ) of Cartan-type’, Chin. Adv. Math. 27 (1998), 240246.Google Scholar
[26]Zhang, Y.-Z. and Shen, G.-Y., ‘The embedding theorem of Z-graded Lie superalgebras’, Sci. China Ser A 41 (1998), 10091016.Google Scholar