Sedenion
In abstract algebra, sedenions form a 16-dimensional non-associative algebra over the reals obtained by applying the Cayley–Dickson construction to the octonions. The set of sedenions is denoted by 
.
The term "sedenion" is also used for other 16-dimensional algebraic structures, such as a tensor product of 2 copies of the quaternions, or the algebra of 4 by 4 matrices over the reals, or that studied by Smith (1995).
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Cayley–Dickson Sedenions
Arithmetic
Like (Cayley–Dickson) octonions, multiplication of Cayley–Dickson sedenions is neither commutative nor associative. But in contrast to the octonions, the sedenions do not even have the property of being alternative. They do, however, have the property of power associativity, which can be stated as for any element x of , the power 
is well-defined.
Every sedenion is a real linear combination of the unit sedenions 1, e1, e2, e3, ..., and e15, which form a basis of the vector space of sedenions.
The sedenions have a multiplicative identity element 1 and multiplicative inverses, but they are not a division algebra. This is because they have zero divisors; this means that two non-zero numbers can be multiplied to obtain a zero result: a trivial example is (e3 + e10)×(e6 − e15). All hypercomplex number systems based on the Cayley–Dickson construction from sedenions on contain zero divisors.
The multiplication table of these unit sedenions follows:
| × | 1 | e1 | e2 | e3 | e4 | e5 | e6 | e7 | e8 | e9 | e10 | e11 | e12 | e13 | e14 | e15 |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| 1 | 1 | e1 | e2 | e3 | e4 | e5 | e6 | e7 | e8 | e9 | e10 | e11 | e12 | e13 | e14 | e15 |
| e1 | e1 | −1 | e3 | −e2 | e5 | −e4 | −e7 | e6 | e9 | −e8 | −e11 | e10 | −e13 | e12 | e15 | −e14 |
| e2 | e2 | −e3 | −1 | e1 | e6 | e7 | −e4 | −e5 | e10 | e11 | −e8 | −e9 | −e14 | −e15 | e12 | e13 |
| e3 | e3 | e2 | −e1 | −1 | e7 | −e6 | e5 | −e4 | e11 | −e10 | e9 | −e8 | −e15 | e14 | −e13 | e12 |
| e4 | e4 | −e5 | −e6 | −e7 | −1 | e1 | e2 | e3 | e12 | e13 | e14 | e15 | −e8 | −e9 | −e10 | −e11 |
| e5 | e5 | e4 | −e7 | e6 | −e1 | −1 | −e3 | e2 | e13 | −e12 | e15 | −e14 | e9 | −e8 | e11 | −e10 |
| e6 | e6 | e7 | e4 | −e5 | −e2 | e3 | −1 | −e1 | e14 | −e15 | −e12 | e13 | e10 | −e11 | −e8 | e9 |
| e7 | e7 | −e6 | e5 | e4 | −e3 | −e2 | e1 | −1 | e15 | e14 | −e13 | −e12 | e11 | e10 | −e9 | −e8 |
| e8 | e8 | −e9 | −e10 | −e11 | −e12 | −e13 | −e14 | −e15 | −1 | e1 | e2 | e3 | e4 | e5 | e6 | e7 |
| e9 | e9 | e8 | −e11 | e10 | −e13 | e12 | e15 | −e14 | −e1 | −1 | −e3 | e2 | −e5 | e4 | e7 | −e6 |
| e10 | e10 | e11 | e8 | −e9 | −e14 | −e15 | e12 | e13 | −e2 | e3 | −1 | −e1 | −e6 | −e7 | e4 | e5 |
| e11 | e11 | −e10 | e9 | e8 | −e15 | e14 | −e13 | e12 | −e3 | −e2 | e1 | −1 | −e7 | e6 | −e5 | e4 |
| e12 | e12 | e13 | e14 | e15 | e8 | −e9 | −e10 | −e11 | −e4 | e5 | e6 | e7 | −1 | −e1 | −e2 | −e3 |
| e13 | e13 | −e12 | e15 | −e14 | e9 | e8 | e11 | −e10 | −e5 | −e4 | e7 | −e6 | e1 | −1 | e3 | −e2 |
| e14 | e14 | −e15 | −e12 | e13 | e10 | −e11 | e8 | e9 | −e6 | −e7 | −e4 | e5 | e2 | −e3 | −1 | e1 |
| e15 | e15 | e14 | −e13 | −e12 | e11 | e10 | −e9 | e8 | −e7 | e6 | −e5 | −e4 | e3 | e2 | −e1 | −1 |
Applications
Moreno (1998) showed that the space of norm 1 zero-divisors of the sedenions is homeomorphic to the compact form of the exceptional Lie group G2.
See also
References
- Imaeda, K.; Imaeda, M. (2000), "Sedenions: algebra and analysis", Applied mathematics and computation 115 (2): 77–88, doi:10.1016/S0096-3003(99)00140-X, MR1786945
- Kinyon, M.K., Phillips, J.D., Vojtěchovský, P.: C-loops: Extensions and constructions, Journal of Algebra and its Applications 6 (2007), no. 1, 1–20. [1]
- Kivunge, Benard M. and Smith, Jonathan D. H: "Subloops of sedenions", Comment.Math.Univ.Carolinae 45,2 (2004)295–302.
- Moreno, Guillermo (1998), "The zero divisors of the Cayley-Dickson algebras over the real numbers", Sociedad Matemática Mexicana. Boletí n. Tercera Serie 4 (1): 13–28, arXiv:q-alg/9710013, MR1625585
- Smith, Jonathan D. H. (1995), "A left loop on the 15-sphere", Journal of Algebra 176 (1): 128–138, doi:10.1006/jabr.1995.1237, MR1345298
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