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The quantizations of Teichmuller space I have seen are via special coordinates (e.g. the paper of Chekhov and Fock) or conformal blocks. Does one get an equivalent quantization by geometric quantization? For example the Weil-Peterson metric is Kahler. Is it known, one way or the other, if doing Kahler quantization gives the same thing? What about a different polarization?

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  • $\begingroup$ Note that due to Tian, If a moduli space admit Weil-Petersson metric then it is quasi projective, and its compactification is projective. Since Weil-Petersson metric is K\"ahler, and $M$ be a Kahler quantizable then it is projective due to Kodaira. So it is better to work on compactification of moduli spaces which admit Weil-Petersson metric. In fact due to Tian, canonical metric of moduli spaces can be introduced by Weil-Petersson metric.... $\endgroup$
    – user21574
    Jun 14, 2016 at 21:10
  • $\begingroup$ ...like moduli space of Calabi-Yau, moduli space of general type varieties. Moduli space of k-poly stable Fano varieties, see paper of Chi-Li. $\endgroup$
    – user21574
    Jun 14, 2016 at 21:10
  • $\begingroup$ The best is you take a holomorphic map $\pi:X\to Y$ which $X$ and $Y$ are Kahler and moduli space of fibres admit Weil-Petersson metric and assume that $Y$ is Quantizable and try to see under which condition $X $ is quantizable. $\endgroup$
    – user21574
    Jun 14, 2016 at 21:17

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One of best ways for quantization of Kahler varieties is to use Kahler reduction since quantization commutes with reduction.

so you can write Teichmuller space $\mathcal T(M)$ by symplectic reduction,

$$\mu^{-1}(0)/Diff^+M\cong\mathfrak{Met}_{-1}(M)/Diff^+M=\mathcal T(M)$$

which $\mathfrak{Met}_{-1}M$ is the space of reimannian metrics of constant scalar curvature $-1$. Hence has $\omega_{WP}$ Weil-Petersson metric.

see page 12 http://arxiv.org/pdf/math/0507076.pdf

and also nice paper of Maryam Mirzakhani pages 8-9 http://www.ams.org/journals/jams/2007-20-01/S0894-0347-06-00526-1/S0894-0347-06-00526-1.pdf

For example for quantization of coadjoint orbit, you need to quantize $T^*G$, since coadjoint orbit is just symplectic quotient of $T^*G$. See my master project presentation http://fr.slideshare.net/HassanJolany/geometric-quantization-on-coadjoint-orbits

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    $\begingroup$ Thank you but my question is not how to construct the Kahler quantization but if it gets the same result as the quantization methods that use special coordinates or conformal blocks. $\endgroup$ Jun 14, 2016 at 23:01

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