Finite Fields, including: Elliptic Curve Cryptography, Finite Field, Cyclic Redundancy Check, Bch Code, Lenstra Elliptic Curve Factorization, Nimber, ... Local Zeta-function, Multi-s01, Xtr Buy on Amazon
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Finite Fields, including: Elliptic Curve Cryptography, Finite Field, Cyclic Redundancy Check, Bch Code, Lenstra Elliptic Curve Factorization, Nimber, ... Local Zeta-function, Multi-s01, Xtr

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Book Details
Author(s) Hephaestus Books
Publisher Hephaestus Books
ISBN / ASIN 1243425334
ISBN-13 9781243425331
Availability Usually ships in 2 to 3 weeks
Sales Rank #1,636,293
Marketplace United States 🇺🇸
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Description
Hephaestus Books represents a new publishing paradigm, allowing disparate content sources to be curated into cohesive, relevant, and informative books. To date, this content has been curated from Wikipedia articles and images under Creative Commons licensing, although as Hephaestus Books continues to increase in scope and dimension, more licensed and public domain content is being added. We believe books such as this represent a new and exciting lexicon in the sharing of human knowledge. This particular book is a collaboration focused on Finite fields.

More info: In abstract algebra, a finite field or Galois field (so named in honor of Évariste Galois) is a field that contains only finitely many elements. Finite fields are important in number theory, algebraic geometry, Galois theory, cryptography, and coding theory. The finite fields are classified by size; there is exactly one finite field up to isomorphism of size pk for each prime p and positive integer k. Each finite field of size q is the splitting field of the polynomial xq - x, and thus the fixed field of the Frobenius endomorphism which takes x to xq. Similarly, the multiplicative group of the field is a cyclic group. Wedderburn's little theorem states that the Brauer group of a finite field is trivial, so that every finite division ring is a finite field. Finite fields have applications in many areas of mathematics and computer science, including coding theory, LFSRs, modular representation theory, and the groups of Lie type. Finite fields are an active area of research, including recent results on the Kakeya conjecture and open problems on the size of the smallest primitive root.
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