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Representing Numbers as the Sum of Two Squares Chris Peikert Representing Numbers as the Sum of Two Squares – p.1/13 Question: Which numbers can be written as the sum of two squares? Representing Numbers as the Sum of Two Squares – p.2/13 Answer: Exactly those numbers whose prime divisors of the form divide an even number of times. Representing Numbers as the Sum of Two Squares – p.3/13 Properties of Agenda Representing Numbers as the Sum of Two Squares – p.4/13 Numbers like Properties of Agenda are bad Representing Numbers as the Sum of Two Squares – p.4/13 Agenda Properties of Primes like Numbers like are bad are good Representing Numbers as the Sum of Two Squares – p.4/13 Agenda Properties of Primes like Primes like Numbers like are bad are good are good Representing Numbers as the Sum of Two Squares – p.4/13 Agenda Properties of Primes like Primes like Numbers like are bad are good are good Extend to all naturals Representing Numbers as the Sum of Two Squares – p.4/13 Agenda Properties of Primes like Primes like Numbers like are bad are good are good Extend to all naturals Face the consequences Representing Numbers as the Sum of Two Squares – p.4/13 Crash Course in is prime. Then: Assume are elements “mod ” Representing Numbers as the Sum of Two Squares – p.5/13 Crash Course in and are elements “mod ” ; is prime. Then: Assume Representing Numbers as the Sum of Two Squares – p.5/13 Crash Course in are elements “mod ” such that and ; is prime. Then: Assume Representing Numbers as the Sum of Two Squares – p.5/13 Crash Course in are elements “mod ” are all distinct for such that The elements . and ; is prime. Then: Assume Representing Numbers as the Sum of Two Squares – p.5/13 Who needs imaginaries? Primes fall into 3 categories. How many solutions to ? : 1 solution Representing Numbers as the Sum of Two Squares – p.6/13 Who needs imaginaries? : 1 solution Primes fall into 3 categories. How many solutions to ? : 2 solutions Representing Numbers as the Sum of Two Squares – p.6/13 Who needs imaginaries? : 1 solution : 2 solutions Primes fall into 3 categories. How many solutions to ? : 0 solutions Representing Numbers as the Sum of Two Squares – p.6/13 Even numbers: is not representable Representing Numbers as the Sum of Two Squares – p.7/13 Even numbers: is not representable Odd numbers: Representing Numbers as the Sum of Two Squares – p.7/13 Even numbers: is not representable or Thus, Odd numbers: Representing Numbers as the Sum of Two Squares – p.7/13 is representable with such pairs. . There Consider are Representing Numbers as the Sum of Two Squares – p.8/13 is representable , there exist distinct such that . There For any with such pairs. Consider are . Representing Numbers as the Sum of Two Squares – p.8/13 is representable . There . , then Let and , there exist distinct such that For any with such pairs. Consider are . Representing Numbers as the Sum of Two Squares – p.8/13 is representable . There and : , so . Let . , then Let and , there exist distinct such that For any with such pairs. Consider are Representing Numbers as the Sum of Two Squares – p.8/13 , part 1 Let’s prove it again. . . Consider: Representing Numbers as the Sum of Two Squares – p.9/13 , part 1 Let’s prove it again. . . Map Consider: Representing Numbers as the Sum of Two Squares – p.9/13 , part 1 Let’s prove it again. . . Map Consider: Define: Representing Numbers as the Sum of Two Squares – p.9/13 , part 1 Let’s prove it again. . . Map Consider: , Since Define: , we get . Representing Numbers as the Sum of Two Squares – p.9/13 , part 2 Map Representing Numbers as the Sum of Two Squares – p.10/13 , part 2 Check: Map is well-defined, and an involution Representing Numbers as the Sum of Two Squares – p.10/13 , part 2 Check: Map is well-defined, and an involution , so and which implies Find ’s fixed point(s?): . Representing Numbers as the Sum of Two Squares – p.10/13 , part 2 Check: Map is well-defined, and an involution , so Conclude: and which implies Find ’s fixed point(s?): . is odd. Representing Numbers as the Sum of Two Squares – p.10/13 , part 3 (whew!) Map Representing Numbers as the Sum of Two Squares – p.11/13 , part 3 (whew!) has a fixed point, i.e.: is odd, so Map Representing Numbers as the Sum of Two Squares – p.11/13 , part 3 (whew!) has a fixed point, i.e.: is odd, so Map QED! (Again!) Representing Numbers as the Sum of Two Squares – p.11/13 Extend to all naturals 1 and 2 are representable; so are primes . Representing Numbers as the Sum of Two Squares – p.12/13 Extend to all naturals , Closure under multiplication: 1 and 2 are representable; so are primes . . Representing Numbers as the Sum of Two Squares – p.12/13 Extend to all naturals 1 and 2 are representable; so are primes . , Closure under multiplication: . Multiplication by a square: . Representing Numbers as the Sum of Two Squares – p.12/13 Extend to all naturals 1 and 2 are representable; so are primes . , Closure under multiplication: . Multiplication by a square: . If divides , then divides and divides , and representable. is Representing Numbers as the Sum of Two Squares – p.12/13 Infinitude of Primes, Redux Euclid says: “there are infinitely many primes .” Representing Numbers as the Sum of Two Squares – p.13/13 Infinitude of Primes, Redux Euclid says: “there are infinitely many primes .” .” Fermat says: “ditto for primes Representing Numbers as the Sum of Two Squares – p.13/13 Infinitude of Primes, Redux Euclid says: “there are infinitely many primes .” .” Fermat says: “ditto for primes Dirichlet says: “ditto for primes , for any co-prime .” Proof doesn’t fit in the margin. . . Representing Numbers as the Sum of Two Squares – p.13/13
