Appell-Lerch sums

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imported>Pythagoras0님의 2013년 7월 25일 (목) 07:20 판
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introduction

  • one way to construct mock theta functions
  • characters of representations in (nonrational) conformal field theory models based on Lie superalgebras\
  • 3rd order mock theta functions



Appell-Lerch sum

  • Appell–Lerch sums were first studied by Paul Émile Appell (1884) and Mathias Lerch (1892).
  • Watson studied the order 3 mock theta functions by expressing them in terms of Appell–Lerch sums
  • Zwegers used them to show that mock theta functions are essentially mock modular forms.
  • The Appell–Lerch series is

\[\mu(u,v;\tau) = \frac{a^{1/2}}{\theta(v;\tau)}\sum_{n\in Z}\frac{(-b)^nq^{n(n+1)/2}}{1-aq^n}\] where \[\displaystyle q= e^{2\pi i \tau},\quad a= e^{2\pi i u},\quad b= e^{2\pi i v}\] and \[\theta(v,\tau) = \sum_{n\in Z}(-1)^n b^{n+1/2}q^{(n+1/2)^2/2}\]

  • The modified series

\[\hat\mu(u,v;\tau) = \mu(u,v;\tau)-R(u-v;\tau)/2\] where \[R(z;\tau) = \sum_{\nu\in Z+1/2}(-1)^{\nu-1/2}({\rm sign}(\nu)-E((\nu+\Im(z)/y)\sqrt{2y}))e^{-2\pi i \nu z}q^{-\nu^2/2}\] and $y=\Im(\tau)$ and \[E(z) = 2\int_0^ze^{-\pi u^2}\,du\] satisfies the following transformation properties \[\hat\mu(u+1,v;\tau) = a^{-1}bq^{-1/2}\hat\mu(u+\tau,v;\tau) = -\hat\mu(u,v;\tau),\] \[e^{2\pi i/8}\hat\mu(u,v;\tau+1) = \hat\mu(u,v;\tau) = -(\tau/i)^{-1/2}e^{\pi i (u-v)^2/\tau}\hat\mu(u/\tau,v/\tau;-1/\tau).\]

  • In other words the modified Appell–Lerch series transforms like a modular form with respect to τ.
  • Since mock theta functions can be expressed in terms of Appell–Lerch series this means that mock theta functions transform like modular forms if they have a certain non-analytic series added to them.


higher level Appell function

  • higher-level Appell functions
    • a particular instance of indefinite theta series



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