Finite | |
---|---|
E3=A2A1 | |
E4=A4 | |
E5=D5 | |
E6 | |
E7 | |
E8 | |
Affine (Extended) | |
E9 or E8(1) or E8+ | |
Hyperbolic (Over-extended) | |
E10 or E8(1)^ or E8++ | |
Lorentzian (Very-extended) | |
E11 or E8+++ | |
Kac–Moody | |
E12 or E8++++ | |
... |
In mathematics, especially in Lie theory, En is the Kac–Moody algebra whose Dynkin diagram is a bifurcating graph with three branches of length 1, 2 and k, with k = n − 4.
In some older books and papers, E2 and E4 are used as names for G2 and F4.
Finite-dimensional Lie algebras
The En group is similar to the An group, except the nth node is connected to the 3rd node. So the Cartan matrix appears similar, -1 above and below the diagonal, except for the last row and column, have −1 in the third row and column. The determinant of the Cartan matrix for En is 9 − n.
- E3 is another name for the Lie algebra A1A2 of dimension 11, with Cartan determinant 6.
- E4 is another name for the Lie algebra A4 of dimension 24, with Cartan determinant 5.
- E5 is another name for the Lie algebra D5 of dimension 45, with Cartan determinant 4.
- E6 is the exceptional Lie algebra of dimension 78, with Cartan determinant 3.
- E7 is the exceptional Lie algebra of dimension 133, with Cartan determinant 2.
- E8 is the exceptional Lie algebra of dimension 248, with Cartan determinant 1.
Infinite-dimensional Lie algebras
- E9 is another name for the infinite-dimensional affine Lie algebra (also as E8+ or E8(1) as a (one-node) extended E8) (or E8 lattice) corresponding to the Lie algebra of type E8. E9 has a Cartan matrix with determinant 0.
- E10 (or E8++ or E8(1)^ as a (two-node) over-extended E8) is an infinite-dimensional Kac–Moody algebra whose root lattice is the even Lorentzian unimodular lattice II9,1 of dimension 10. Some of its root multiplicities have been calculated; for small roots the multiplicities seem to be well behaved, but for larger roots the observed patterns break down. E10 has a Cartan matrix with determinant −1:
- E11 (or E8+++ as a (three-node) very-extended E8) is a Lorentzian algebra, containing one time-like imaginary dimension, that has been conjectured to generate the symmetry "group" of M-theory.
- En for n≥12 is an infinite-dimensional Kac–Moody algebra that has not been studied much.
Root lattice
The root lattice of En has determinant 9 − n, and can be constructed as the lattice of vectors in the unimodular Lorentzian lattice Zn,1 that are orthogonal to the vector (1,1,1,1,...,1|3) of norm n × 12 − 32 = n − 9.
E7½
Landsberg and Manivel extended the definition of En for integer n to include the case n = 71⁄2. They did this in order to fill the "hole" in dimension formulae for representations of the En series which was observed by Cvitanovic, Deligne, Cohen and de Man. E71⁄2 has dimension 190, but is not a simple Lie algebra: it contains a 57 dimensional Heisenberg algebra as its nilradical.
See also
References
Further reading
- West, P. (2001). "E11 and M Theory". Classical and Quantum Gravity. 18 (21): 4443–4460. arXiv:hep-th/0104081. Bibcode:2001CQGra..18.4443W. doi:10.1088/0264-9381/18/21/305. S2CID 250872099. Class. Quantum Grav. 18 (2001) 4443-4460
- Gebert, R. W.; Nicolai, H. (1994). "E 10 for beginners". E10 for beginners. Lecture Notes in Physics. Vol. 447. pp. 197–210. arXiv:hep-th/9411188. doi:10.1007/3-540-59163-X_269. ISBN 978-3-540-59163-4. S2CID 14570784. Guersey Memorial Conference Proceedings '94
- Landsberg, J. M.; Manivel, L. (2006). "The sextonions and E7½". Advances in Mathematics. 201 (1): 143–179. arXiv:math.RT/0402157. doi:10.1016/j.aim.2005.02.001.
- Connections between Kac-Moody algebras and M-theory, Paul P. Cook, 2006
- A class of Lorentzian Kac-Moody algebras, Matthias R. Gaberdiel, David I. Olive and Peter C. West, 2002