In this paper, we construct some cyclic division algebras (K/F,σ,γ). We obtain a necessary and sufficient condition of a non-norm elementγ provided that F = Q and K is a subfield of a cyclotomic field Q(ζpu), ...In this paper, we construct some cyclic division algebras (K/F,σ,γ). We obtain a necessary and sufficient condition of a non-norm elementγ provided that F = Q and K is a subfield of a cyclotomic field Q(ζpu), where p is a prime and ζpu is a pu th primitive root of unity. As an application for space time block codes, we also construct cyclic division algebras (K/F,σ, γ), where F = Q(i), i = √-1, K is a subfield of Q(ζ4pu) or Q(ζ4pu1 pu2), and γ = 1+i. Moreover, we describe all cyclic division algebras (K/F, σ, γ) such that F = Q(i), K is a subfield of L = Q(ζ4pu1, pu2) and γ= 1 +i, where [K: F] = φ(pu1 pu2)/d, d = 2 or 4, φ is the Euler totient function, and p1,p2 ≤ 100 are distinct odd primes.展开更多
文摘In this paper, we construct some cyclic division algebras (K/F,σ,γ). We obtain a necessary and sufficient condition of a non-norm elementγ provided that F = Q and K is a subfield of a cyclotomic field Q(ζpu), where p is a prime and ζpu is a pu th primitive root of unity. As an application for space time block codes, we also construct cyclic division algebras (K/F,σ, γ), where F = Q(i), i = √-1, K is a subfield of Q(ζ4pu) or Q(ζ4pu1 pu2), and γ = 1+i. Moreover, we describe all cyclic division algebras (K/F, σ, γ) such that F = Q(i), K is a subfield of L = Q(ζ4pu1, pu2) and γ= 1 +i, where [K: F] = φ(pu1 pu2)/d, d = 2 or 4, φ is the Euler totient function, and p1,p2 ≤ 100 are distinct odd primes.
