Papers

  1. Karen Yeats, Asymptotic Density in Combined Number Systems. New York J. Math. 8 (2002), 63-83. A central reference is Stan Burris' Number Theoretic Density and Logical Limit Laws.
  2. Karen Yeats, A Multiplicative Analogue of Schur's Tauberian Theorem. Canad. Math. Bull. 46 no.3 (2003), 473-480. Errata.
  3. Stanley Burris and Karen Yeats, The Saga of the High School Identities. Algebra Universalis, 52 nos.2-3 (2005), 325-342. Available in postscript or pdf format.
  4. Stanley Burris and Karen Yeats, Admissible Dirichlet Series. arXiv:math.CA/0507487
  5. Kathryn E. Hare and Karen Yeats, The size of characters of exceptional Lie groups. J. Austral. Math. Soc. 77 (2004), 233-248.
  6. Jason Bell, Stanley Burris, and Karen Yeats, Counting Rooted Trees: The Universal Law t(n) ∼ Cρ−nn−3/2. Elec. J. Combin. 13 (2006), #R63. (Also arXiv:math.CO/0512432.)
  7. Dirk Kreimer and Karen Yeats, An Étude in non-linear Dyson-Schwinger Equations. Nucl. Phys. B Proc. Suppl., 160, (2006), 116-121. (Also arXiv:hep-th/0605096.)
  8. Stanley Burris and Karen Yeats, Sufficient Conditions for Labelled 0-1 Laws. Discrete Math. Theor. Comput. Sci. 10 no.1, (2008), 147-156. (Also arXiv:math.CO/0608735.)
  9. Dirk Kreimer and Karen Yeats, Recursion and growth estimates in renormalizable quantum field theory. Commun. Math. Phys. 279, no.2, (2008), 401-427. (Also arXiv:hep-th/0612179.)
  10. David Uminsky and Karen Yeats, Unbounded regions of Infinitely Logconcave Sequences. Elec. J. Combin. 14 (2007), #R72. (Also arXiv:math.CO/0703770.)
  11. My PhD thesis: Growth estimates for Dyson-Schwinger equations.
  12. Guillaume van Baalen, Dirk Kreimer, David Uminsky and Karen Yeats, The QED beta-function from global solutions to Dyson-Schwinger equations. arXiv:0805.0826.

Talks

Counting trees with applications to counting Feynman diagrams March 14, 2006; CIRM conference on Renormalization and Galois theories. Available in postscript or pdf format.

Recursion and growth estimates in quantum field theory April 9, 2007; Johns Hopkins University. Available in postscript or pdf format.

Dyson-Schwinger equations and Renormalization Hopf algebras April 10, 2007; Johns Hopkins University. Available in postscript or pdf format.

Feynman graphs to motives, June 28, 2007; Mathematische Arbeitstagung 2007. MPIM2007-75o.

Two different versions of a picture talk. Visualizing solutions to Dyson-Schwinger equations, October 4, 2007, Boston University; available in postscript or pdf format; and Rearranging Dyson-Schwinger equations, October 7, 2007, Special Session on Noncommutative Geometry and Arithmetic Geometry, AMS Fall Eastern Section Meeting; available in postscript or pdf format.

Two different versions of my job talk, A combinatorial perspective on Dyson-Schwinger equations. Simon Fraser University version, January 11, 2008; available in postscript or pdf format. McGill University version, February 14, 2008; available in postscript or pdf format.

Other

Sequences A116379 and A116380 in the On-Line Encyclopedia of Integer Sequences