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Emerging applications of number theory

By: Contributor(s): Material type: TextTextLanguage: English Series: The IMA volumes in mathematics and its applications ; vol. 109Publication details: New York Springer 1999Description: xiii, 689p. illISBN:
  • 0387988246 (HB)
Subject(s):
Contents:
1. Trace formula for quantum integrable systems, lattice-point problem, and small divisors. 2. Theta-lifts of Maass waveforms. 3. The transfer operator approach to Selberg's zeta function and modular and Maass wave forms for PSL(2, ZZ). 4. Chaos and deviation from uniform distribution: eigenfunction computation; applied modular arithmetic. 5. Logarithmic Sobolev techniques for random walks on graphs. 6. Eigenvalue statistics in quantum ideal gases. 7. Multifractal spectrum and Laplace spectrum. 8. Number theory and atomic densities. 9. Explicit formulas and oscillations. 10. Energy fluctuation analysis in integrable billiards in hyperbolic geometry. 11. On eigenfunctions of the Laplacian for Hecke triangle groups. 12. Eigenvalue spacings for regular graphs. 13. Classical limits of eigenfunctions for some completely integrable systems. 14. Does a quantum particle know the time? 15. Level spacings for Cayley graphs. 16. Eigenvalues of Ramanujan graphs. 17. Theta sums, Eisenstein series, and the semiclassical dynamics of a precessing spin. 18. Random walks on generalized Euclidean graphs. 19. Two proofs of Ihara's theorem. 20. Playing billiards with microwaves - Quantum manifestations of classical chaos. 21. Characters of the symmetric groups: formulas, estimates, and applications. 22. Number theory and formal languages. 23. Expander graphs and amenable quotients. 24. Ramanujan hypergraphs and Ramanujan geometries. 25. Constructing error-correcting codes from expander graphs. 26. Multipath zeta functions of graphs. 27. Eigenvalues of the Laplacian for Bianchi groups. 28. A survey of discrete trace formulas.
Summary: Trace formula for quantum integrable systems, lattice-point problem, and small divisors.- Theta-lifts of Maass waveforms.- The transfer operator approach to Selberg's zeta function and modular and Maass wave forms for PSL (2,ZZ).- Chaos and deviation from uniform distribution: eigenfunction computation; applied modular arithmetic.- Logarithmic Sobolev techniques for random walks on graphs.- Eigenvalue statistics in quantum ideal gases.- Multifractal spectrum and Laplace spectrum.- Number theory and atomic densities.- Explicit formulas and oscillations.- Energy fluctuation analysis in integrable billiards;- in hyperbolic geometry.- On eigenfunctions of the Laplacian for Hecke triangle groups.- Eigenvalue spacings for regular graphs.- Classical limits of eigenfunctions for some completely integrable systems.- Does a quantum particle know the time?- Level spacings for Cayley graphs.- Eigenvalues of Ramanujan graphs.- Theta sums, Eisenstein series, and the semiclassical dynamics of a precessing spin.- Random walks on generalized Euclidean graphs.- Two proofs of Ihara's theorem.- Playing billiards with microwaves.- Quantum manifestations of classical chaos.- Characters of the symmetric groups: formulas, estimates and applications.- Number theory and formal languages.- Expander graphs and amenable quotients.- Ramanujan hypergraphs and Ramanujan geometries.- Constructing error-correcting codes from expander graphs.- Multipath zeta functions of graphs.- Eigenvalues of the Laplacian for Bianchi groups.- A survey of discrete trace formulas.
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IMSc Library 511(082)“1999” HEJ (Browse shelf(Opens below)) Available 40894

Includes bibliography and references.

1. Trace formula for quantum integrable systems, lattice-point problem, and small divisors.
2. Theta-lifts of Maass waveforms.
3. The transfer operator approach to Selberg's zeta function and modular and Maass wave forms for PSL(2, ZZ).
4. Chaos and deviation from uniform distribution: eigenfunction computation; applied modular arithmetic.
5. Logarithmic Sobolev techniques for random walks on graphs.
6. Eigenvalue statistics in quantum ideal gases.
7. Multifractal spectrum and Laplace spectrum.
8. Number theory and atomic densities.
9. Explicit formulas and oscillations.
10. Energy fluctuation analysis in integrable billiards in hyperbolic geometry.
11. On eigenfunctions of the Laplacian for Hecke triangle groups.
12. Eigenvalue spacings for regular graphs.
13. Classical limits of eigenfunctions for some completely integrable systems.
14. Does a quantum particle know the time?
15. Level spacings for Cayley graphs.
16. Eigenvalues of Ramanujan graphs.
17. Theta sums, Eisenstein series, and the semiclassical dynamics of a precessing spin.
18. Random walks on generalized Euclidean graphs.
19. Two proofs of Ihara's theorem.
20. Playing billiards with microwaves - Quantum manifestations of classical chaos.
21. Characters of the symmetric groups: formulas, estimates, and applications.
22. Number theory and formal languages.
23. Expander graphs and amenable quotients.
24. Ramanujan hypergraphs and Ramanujan geometries.
25. Constructing error-correcting codes from expander graphs.
26. Multipath zeta functions of graphs.
27. Eigenvalues of the Laplacian for Bianchi groups.
28. A survey of discrete trace formulas.

Trace formula for quantum integrable systems, lattice-point problem, and small divisors.- Theta-lifts of Maass waveforms.- The transfer operator approach to Selberg's zeta function and modular and Maass wave forms for PSL (2,ZZ).- Chaos and deviation from uniform distribution: eigenfunction computation; applied modular arithmetic.- Logarithmic Sobolev techniques for random walks on graphs.- Eigenvalue statistics in quantum ideal gases.- Multifractal spectrum and Laplace spectrum.- Number theory and atomic densities.- Explicit formulas and oscillations.- Energy fluctuation analysis in integrable billiards;- in hyperbolic geometry.- On eigenfunctions of the Laplacian for Hecke triangle groups.- Eigenvalue spacings for regular graphs.- Classical limits of eigenfunctions for some completely integrable systems.- Does a quantum particle know the time?- Level spacings for Cayley graphs.- Eigenvalues of Ramanujan graphs.- Theta sums, Eisenstein series, and the semiclassical dynamics of a precessing spin.- Random walks on generalized Euclidean graphs.- Two proofs of Ihara's theorem.- Playing billiards with microwaves.- Quantum manifestations of classical chaos.- Characters of the symmetric groups: formulas, estimates and applications.- Number theory and formal languages.- Expander graphs and amenable quotients.- Ramanujan hypergraphs and Ramanujan geometries.- Constructing error-correcting codes from expander graphs.- Multipath zeta functions of graphs.- Eigenvalues of the Laplacian for Bianchi groups.- A survey of discrete trace formulas.

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The Institute of Mathematical Sciences, Chennai, India