Suhyoung Choi scite author profile

Abstract. The deformation space C(L) of convex RP2-structures on a closed surface I with #(5)) < 0 is closed in the space Hom(7t, SL(3, R))/SL(3, R) of equivalence classes of representations nx (Z) -» SL(3, R). Using this fact, we prove Hitchin's conjecture that the contractible "Teichmiiller component" (Lie groups and Teichmiiller space, preprint) of Homfw, SL(3, R))/SL(3, R) precisely equals C(2).Let X be a closed orientable surface of genus g > 1 and n = nx(L) its fundamental group. A convex EP2-structure on M is a representation (uniformization) of M as a quotient £l/T where Q c RP2 is a convex domain and T c SL(3, R) is a discrete group of collineations of RP2 acting properly and freely on Q. (See [5] for basic theory of such structures.) The space of projective equivalence classes of convex RP2-structures embeds as an open subset in the space of equivalence classes of representations n -* SL(3, R). The purpose of this note is to show that this subset is also closed.In [7], Hitchin shows that the space of equivalence classes of representations n -> SL(3, R) falls into three connected components: one component C_i consisting of classes of representations for which the associated flat R3-bundle over £ has nonzero second Stiefel-Whitney class; a component Co containing the class of the trivial representation; a component Cx diffeomorphic to a cell of dimension 16(g -1), which he calls the "Teichmiiller component." While C-i can be distinguished from Co and Cx by a topological invariant [3, 4], no characteristic invariant distinguishes representations in the Teichmiiller component from those in Co. The Teichmiiller component is defined as follows. Using the Klein-Beltrami model of hyperbolic geometry, a hyperbolic structure on Z is a special case of a convex RP2-structure Q/T where Q is the region bounded by a conic. In this case I" is conjugate to a cocompact lattice in SO(2,l) c SL(3, R). The space T(S) of hyperbolic structures ("Teichmiiller

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Convex decompositions of real projective surfaces. II. Admissible decompositions

Choi¹

1994

J. Differential Geom.

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Geometric Structures on Orbifolds and Holonomy Representations

Choi

2004

Geometriae Dedicata

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An orbifold is a topological space modeled on quotient spaces of a finite group actions. We can define the universal cover of an orbifold and the fundamental group as the deck transformation group. Let G be a Lie group acting on a space X. We show that the space of isotopy-equivalence classes of (G, X)-structures on a compact orbifold Σ is locally homeomorphic to the space of representations of the orbifold fundamental group of Σ to G following the work of Thurston, Morgan, and Lok. This implies that the deformation space of (G, X)-structures on Σ is locally homeomorphic to the space of representations of the orbifold fundamental group to G when restricted to the region of proper conjugation action by G.

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The deformation spaces of convex [inline-graphic xmlns:xlink="http://www.w3.org/1999/xlink" xlink:href="01i" /]-structures on 2-orbifolds

Choi¹,

Goldman²

2005

ajm

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Abstract. We determine that the deformation space of convex real projective structures, that is, projectively flat torsion-free connections with the geodesic convexity property on a compact 2-orbifold of negative Euler characteristic is homeomorphic to a cell of certain dimension. The basic techniques are from Thurston's lecture notes on hyperbolic 2-orbifolds, the previous work of Goldman on convex real projective structures on surfaces, and some classical geometry.

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Convex decompositions of real projective surfaces. I. $\pi$-annuli and convexity

Choi¹

1994

J. Differential Geom.

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Suhyoung Choi

Convex real projective structures on closed surfaces are closed

Convex decompositions of real projective surfaces. II. Admissible decompositions

Geometric Structures on Orbifolds and Holonomy Representations

The deformation spaces of convex [inline-graphic xmlns:xlink="http://www.w3.org/1999/xlink" xlink:href="01i" /]-structures on 2-orbifolds

Convex decompositions of real projective surfaces. I. $\pi$-annuli and convexity

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