000 | 01951nam a22001937a 4500 | ||
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003 | OSt | ||
005 | 20240828150316.0 | ||
008 | 190302b ||||| |||| 00| 0 eng d | ||
020 | _a9780821848647 | ||
040 |
_cEducational Supplies _aICTS-TIFR |
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050 | _aQA1 | ||
100 | _aSimon, Barry | ||
245 |
_aOrthogonal polynomials on the unit circle _b: Part 2- Spectral Theory |
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260 |
_aUSA: _bAMS, _c[c2009] |
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300 | _a577 p | ||
505 | _aChapter 1: The Basics Chapter 2: Szego's Theorem Chapter 3: Tools for Geronimus' Theorem Chapter 4: Matrix Representations Chapter 5: Baxter's Theorem Chapter 6: The Strong Szego Theorem Chapter 7: Verblunsky Coefficients With Rapid Decay Chapter 8: The Density of Zeros Part 2 : Spectral Theory Chapter 9. Rakhmanov’s theorem and related issues Chapter 10. Techniques of spectral analysis Chapter 11. Periodic Verblunsky coefficients Chapter 12. Spectral analysis of specific classes of Verblunsky coefficients Chapter 13. The connection to Jacobi matrices | ||
520 | _aThis two-part volume gives a comprehensive overview of the theory of probability measures on the unit circle, viewed especially in terms of the orthogonal polynomials defined by those measures. A major theme involves the connections between the Verblunsky coefficients (the coefficients of the recurrence equation for the orthogonal polynomials) and the measures, an analog of the spectral theory of one-dimensional Schrödinger operators. Among the topics discussed along the way are the asymptotics of Toeplitz determinants (Szegő's theorems), limit theorems for the density of the zeros of orthogonal polynomials, matrix representations for multiplication by z (CMV matrices), periodic Verblunsky coefficients from the point of view of meromorphic functions on hyperelliptic surfaces, and connections between the theories of orthogonal polynomials on the unit circle and on the real line. | ||
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_c2428 _d2428 |