- #1
burritoloco
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Hi, yet another question regarding polynomials :). Just curious about this.
Let f(x), g(x) be irreducible polynomials over the finite field GF(q) with coprime degrees n, m resp. Let \alpha , \beta be roots of f(x), g(x) resp. Then the roots of f(x), g(x), are \alpha^{q^i}, 0\leq i \leq n-1, and \beta^{q^j}, 0\leq j \leq m-1.
Question: What is the irreducible polynomial over GF(q) of degree nm with roots \alpha^{q^i}\beta^{q^j} where 0\leq i \leq n-1, and 0\leq j \leq m-1. Can you define such polynomial explicitly in terms of just f(x) and g(x) without the roots appearing in the formula?
Note: The last sentence/question is what really interests me as the following is the required polynomial (but defined in terms of the roots of f(x))
F(x) = \prod_{i=0}^{n-1}\alpha^{mq^i}g\left(\alpha^{-q^i}x\right)
Thank you!
Let f(x), g(x) be irreducible polynomials over the finite field GF(q) with coprime degrees n, m resp. Let \alpha , \beta be roots of f(x), g(x) resp. Then the roots of f(x), g(x), are \alpha^{q^i}, 0\leq i \leq n-1, and \beta^{q^j}, 0\leq j \leq m-1.
Question: What is the irreducible polynomial over GF(q) of degree nm with roots \alpha^{q^i}\beta^{q^j} where 0\leq i \leq n-1, and 0\leq j \leq m-1. Can you define such polynomial explicitly in terms of just f(x) and g(x) without the roots appearing in the formula?
Note: The last sentence/question is what really interests me as the following is the required polynomial (but defined in terms of the roots of f(x))
F(x) = \prod_{i=0}^{n-1}\alpha^{mq^i}g\left(\alpha^{-q^i}x\right)
Thank you!
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