论文信息 - Melvin Models and Diophantine Approximation - 字舞流文

Melvin Models and Diophantine Approximation

G. Moore | J. Marklof | D. Kutasov

[1] M. Marcolli. Modular Curves, C*-algebras, and Chaotic Cosmology , 2003, math-ph/0312035.

[2] Matilde Marcolli,et al. Number Theory in Physics , 2006 .

[3] H. Davenport,et al. Analytic Methods for Diophantine Equations and Diophantine Inequalities: Cubic forms: bilinear equations , 2005 .

[4] M. Headrick,et al. Closed string tachyon condensation: an overview , 2004, hep-th/0405064.

[5] G. Moore. Les Houches Lectures on Strings and Arithmetic , 2004, hep-th/0401049.

[6] L. Cornalba,et al. Time‐dependent orbifolds and string cosmology , 2003, hep-th/0310099.

[7] E. Martinec. Defects, Decay, And Dissipated States , 2002, hep-th/0210231.

[8] G. Moore,et al. Strings in Time-Dependent Orbifolds , 2002, hep-th/0206182.

[9] E. Dudas,et al. Orientifolds of string theory Melvin backgrounds , 2002, hep-th/0205096.

[10] M. Headrick,et al. Closed string tachyon condensation on twisted circles , 2001, hep-th/0111212.

[11] J. Harvey,et al. Localized Tachyons and RG Flows , 2001, hep-th/0111154.

[12] M. Marcolli. Limiting modular symbols and the Lyapunov spectrum , 2001, math/0111093.

[13] H. Verlinde,et al. Duality cascade and oblique phases in non-commutative open string theory , 2001, hep-th/0107215.

[14] J. Russo,et al. Magnetic backgrounds and tachyonic instabilities in closed superstring theory and M-theory , 2001, hep-th/0104238.

[15] A. Strominger,et al. Fluxbranes in String Theory , 2001, hep-th/0104136.

[16] M. Marcolli,et al. Continued fractions, modular symbols, and noncommutative geometry , 2001, math/0102006.

[17] M. Gutperle,et al. The Kaluza Klein Melvin solution in M-theory , 2000, hep-th/0012072.

[18] E. Rabinovici,et al. On the short-distance structure of irrational non-commutative gauge theories , 2000, hep-th/0009009.

[19] J. Marklof. The $\bm{n}$-point correlations between values of a linear form , 2000, Ergodic Theory and Dynamical Systems.

[20] J. Harvey,et al. Tension is dimension , 1999, hep-th/9909072.

[21] Mukarram Ahmad,et al. Continued fractions , 2019, Quadratic Number Theory.

[22] H. Weiss,et al. Multifractal Analysis of Lyapunov Exponent for Continued Fraction and Manneville–Pomeau Transformations and Applications to Diophantine Approximation , 1999 .

[23] B. Kol. On 6d "Gauge" Theories with Irrational Theta Angle , 1997, hep-th/9711017.

[24] Gibbons,et al. Nucleation of p-branes and fundamental strings. , 1995, Physical review. D, Particles and fields.

[25] J. Russo,et al. Magnetic flux tube models in superstring theory , 1995, hep-th/9508068.

[26] Gibbons,et al. Decay of magnetic fields in Kaluza-Klein theory. , 1995, Physical review. D, Particles and fields.

[27] L. Vulakh. Diophantine approximation in ⁿ , 1995 .

[28] Giddings,et al. Pair creation of extremal black holes and Kaluza-Klein monopoles. , 1993, Physical review. D, Particles and fields.

[29] Dowker,et al. Pair creation of dilaton black holes. , 1993, Physical review. D, Particles and fields.

[30] Michel Waldschmidt,et al. From Number Theory to Physics , 1992 .

[31] D. Kutasov. Some Properties of (Non) Critical Strings , 1991, hep-th/9110041.

[32] D. Kutasov,et al. Number of degrees of freedom, density of states and tachyons in string theory and CFT , 1991 .

[33] E. Verlinde,et al. Modular Invariance and the Fusion Algebra , 1988 .

[34] F. Takens. Measure and category , 1988 .

[35] C. Series. The modular surface and continued fractions , 1985 .

[36] D. Hofstadter. Energy levels and wave functions of Bloch electrons in rational and irrational magnetic fields , 1976 .

[37] Ralph G. Archibald,et al. An introduction to the theory of numbers , 1970 .

[38] N. B. Slater,et al. Gaps and steps for the sequence nθ mod 1 , 1967, Mathematical Proceedings of the Cambridge Philosophical Society.

[39] E. T.. An Introduction to the Theory of Numbers , 1946, Nature.

[40] E. Artin. Ein mechanisches system mit quasiergodischen bahnen , 1924 .