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How could i prove this?

Let $F$ be a finite field of characteristic $2$ and $g \in F[X]$ an irreducible polynomial. Splitting this polynomial in even and odd part we get $g(X)=g_0(X)^2+Xg_1(X)^2$. Then there exists a polynomial $w \in F[X]$ such that $w^2(X)\equiv X \bmod g(X)$.

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    It seems like some details are missing. What are $g_0$ and $g_1$? What role do they play? Is the small $x$ different from the big $X$? (What does [pdta](http://acronyms.thefreedictionary.com/PDTA) mean here?)2012-01-22
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    What does $w^2(X)$ mean, for that matter? Sorry to be nitpicky but I'd like to know what the question is!2012-01-22
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    thanks by your attention I edit the question, i dont know that mean $w(X)$ the original paper this so, about the question : "How could i prove this?"2012-01-23
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    The question looks better now. But what is this "original paper" you mention? Maybe if you tell us where you found it, we could have a look at it and find something there to help solve the problem.2012-01-23
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    see http://ieeexplore.ieee.org/stamp/stamp.jsp?arnumber=00490862, in the end from right side, page 1022012-01-23
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    @Juan: Most regulars here do not have access rights to IEEE Xplore, so it is a bit rude to refer them to such a page. I happen to have such rights, but unfortunately IEEE Xplore gives me a "page not found" error message. Are you sure that you copied it correctly?2012-07-06
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    I retract my previous comment. The link works now. May be my cookie whitelist was not up to speed? Sorry about that.2012-08-27

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