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Lattices and Minkowski’s Theorem

Lattices and Minkowski’s Theorem. Chapter 2. Preface. Lattice Point. A lattice point is a point in R d with integer coordinates. Later we will talk about general lattice point. Minkowski’s Theorem.

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Lattices and Minkowski’s Theorem

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  1. Lattices and Minkowski’s Theorem Chapter 2

  2. Preface

  3. Lattice Point A lattice point is a point in Rd with integer coordinates. Later we will talk about general lattice point.

  4. Minkowski’s Theorem Let C ⊆ Rd be symmetric around the origin, convex, bounded and suppose that volume(C)>2d. Then C contains at least one lattice point different from 0. Definitions • * A C set is convex whenever x,y∊C  implies segment xy∊C . • *  An object C  is centrally around the origin if whenever (0,0) ∊ C and if x∊C then -x∊C.

  5. Examples (d=2) Vol=2*2=4<22=4 Vol=4*4=16>22=4

  6. Proof

  7. Claim C’+v C’

  8. Proof –Claim(1) C’+v C’ 2M C 2M

  9. Proof –Claim(2) Volume(cube) Upper bound Possibilites of v in [-M,M]d K 2M+2D

  10. Proof –Claim(3)

  11. Proof-Minkowski’s Theorem C’+v x C’

  12. Example Let K be a circle of diameter 26 meters centered at the origin. Trees of diameter 0.16 grow at each lattice point within K except for the origin, which is where Shrek is standing. Prove Shrek can’t see outside this mini forest.

  13. Proof K D=26m D=0.16m l S

  14. PropositionApproximating an irrational number by a fraction Note: This proposition implies that there are infinitely many pairs m,n such that:

  15. Proof

  16. General Lattices

  17. TheoremMinkowski’s theorem for general lattices

  18. Proof f

  19. Discrete subgroup of Rd

  20. TheoremLattice basis theorem

  21. Proof(1)

  22. Proof(2)

  23. Proof(3) v v’

  24. Question… How efficiently can one actually compute a nonzero lattice point in a symmetric convex body?

  25. An application in Number Theory Theorem Lemma If p is a prime with p ≡ 1(mod 4) then -1 is a quadric residue modulo p.

  26. Definitions-Number Theory For a given positive integer n, two integers a and b are called congruent modulo n, written a ≡ b (mod n) if a-b is divisible by n. For example, 37≡57(mod 10) since 37-57=-20 is a multiple of 10. Example: 42≡6(mod 10) so 6 is a quadratic residue (mod 10).

  27. Proof(Theorem) q2≣-1(mod p) 0≣ 2p C

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