Masur-veech volumes, frequencies of simple closed geodesics, and intersection numbers of moduli spaces of curves

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Masur-veech volumes, frequencies of simple closed geodesics, and intersection numbers of moduli spaces of curves. / Delecroix, Vincent; Goujard, Élise; Zograf, Peter; Zorich, Anton.

In: Duke Mathematical Journal, Vol. 170, No. 12, 2021, p. 2633-2718.

Research output: Contribution to journal › Article › peer-review

Author

Delecroix, Vincent ; Goujard, Élise ; Zograf, Peter ; Zorich, Anton. / Masur-veech volumes, frequencies of simple closed geodesics, and intersection numbers of moduli spaces of curves. In: Duke Mathematical Journal. 2021 ; Vol. 170, No. 12. pp. 2633-2718.

BibTeX

@article{869b16cc26c9450dbf3f0077c18f38bd,

title = "Masur-veech volumes, frequencies of simple closed geodesics, and intersection numbers of moduli spaces of curves",

abstract = "We express the Masur-Veech volume and the area Siegel-Veech constant of the moduli space Qg,nof genus g meromorphic quadratic differentials with at most n simple poles and no other poles as polynomials in the intersection numbers ∫-Mg′,n′Ψd11···Ψdn′n′with explicit rational coefficients, where g′ g′,n′(b1,⋯,bn′) that also appear in Mirzakhani's recursion for the Weil-Petersson volumes of the moduli spaces Mg′,n′(b1,⋯, bn′) of bordered hyperbolic surfaces with geodesic boundaries of lengths b1,⋯,bn′. A similar formula for the Masur-Veech volume (but without explicit evaluation) was obtained earlier by Mirzakhani through a completely different approach. We prove a further result: The density of the mapping class group orbit Modg,n·γ of any simple closed multicurve γ inside the ambient set ℳℲg,n(ℤ) of integral measured laminations, computed by Mirzakhani, coincides with the density of square-tiled surfaces having horizontal cylinder decomposition associated to γ among all square-tiled surfaces in Qg,n. We study the resulting densities (or, equivalently, volume contributions) in more detail in the special case when n = 0. In particular, we compute explicitly the asymptotic frequencies of separating and nonseparating simple closed geodesics on a closed hyperbolic surface of genus g for all small genera g, and we show that in large genera the separating closed geodesics are √2/3πg · 1/4g times less frequent.",

author = "Vincent Delecroix and {\'E}lise Goujard and Peter Zograf and Anton Zorich",

year = "2021",

doi = "10.1215/00127094-2021-0054",

language = "English",

volume = "170",

pages = "2633--2718",

journal = "Duke Mathematical Journal",

issn = "0012-7094",

publisher = "Duke University Press",

number = "12",

}

RIS

TY - JOUR

T1 - Masur-veech volumes, frequencies of simple closed geodesics, and intersection numbers of moduli spaces of curves

AU - Delecroix, Vincent

AU - Goujard, Élise

AU - Zograf, Peter

AU - Zorich, Anton

PY - 2021

Y1 - 2021

N2 - We express the Masur-Veech volume and the area Siegel-Veech constant of the moduli space Qg,nof genus g meromorphic quadratic differentials with at most n simple poles and no other poles as polynomials in the intersection numbers ∫-Mg′,n′Ψd11···Ψdn′n′with explicit rational coefficients, where g′ g′,n′(b1,⋯,bn′) that also appear in Mirzakhani's recursion for the Weil-Petersson volumes of the moduli spaces Mg′,n′(b1,⋯, bn′) of bordered hyperbolic surfaces with geodesic boundaries of lengths b1,⋯,bn′. A similar formula for the Masur-Veech volume (but without explicit evaluation) was obtained earlier by Mirzakhani through a completely different approach. We prove a further result: The density of the mapping class group orbit Modg,n·γ of any simple closed multicurve γ inside the ambient set ℳℲg,n(ℤ) of integral measured laminations, computed by Mirzakhani, coincides with the density of square-tiled surfaces having horizontal cylinder decomposition associated to γ among all square-tiled surfaces in Qg,n. We study the resulting densities (or, equivalently, volume contributions) in more detail in the special case when n = 0. In particular, we compute explicitly the asymptotic frequencies of separating and nonseparating simple closed geodesics on a closed hyperbolic surface of genus g for all small genera g, and we show that in large genera the separating closed geodesics are √2/3πg · 1/4g times less frequent.

AB - We express the Masur-Veech volume and the area Siegel-Veech constant of the moduli space Qg,nof genus g meromorphic quadratic differentials with at most n simple poles and no other poles as polynomials in the intersection numbers ∫-Mg′,n′Ψd11···Ψdn′n′with explicit rational coefficients, where g′ g′,n′(b1,⋯,bn′) that also appear in Mirzakhani's recursion for the Weil-Petersson volumes of the moduli spaces Mg′,n′(b1,⋯, bn′) of bordered hyperbolic surfaces with geodesic boundaries of lengths b1,⋯,bn′. A similar formula for the Masur-Veech volume (but without explicit evaluation) was obtained earlier by Mirzakhani through a completely different approach. We prove a further result: The density of the mapping class group orbit Modg,n·γ of any simple closed multicurve γ inside the ambient set ℳℲg,n(ℤ) of integral measured laminations, computed by Mirzakhani, coincides with the density of square-tiled surfaces having horizontal cylinder decomposition associated to γ among all square-tiled surfaces in Qg,n. We study the resulting densities (or, equivalently, volume contributions) in more detail in the special case when n = 0. In particular, we compute explicitly the asymptotic frequencies of separating and nonseparating simple closed geodesics on a closed hyperbolic surface of genus g for all small genera g, and we show that in large genera the separating closed geodesics are √2/3πg · 1/4g times less frequent.

UR - http://www.scopus.com/inward/record.url?scp=85114831202&partnerID=8YFLogxK

U2 - 10.1215/00127094-2021-0054

DO - 10.1215/00127094-2021-0054

M3 - Article

AN - SCOPUS:85114831202

VL - 170

SP - 2633

EP - 2718

JO - Duke Mathematical Journal

JF - Duke Mathematical Journal

SN - 0012-7094

IS - 12

ER -

ID: 98426403