Wave maps on R2: Difference between revisions

Revision as of 04:41, 2 August 2006

The theory for wave maps on $R^{1+2}$ is as follows.

Scaling is s_c = 1 (energy-critical).
LWP in H^1 Tt-p2
- For B^{1,1}_2 this is in Tt2001b.
- LWP in H^s, s>1 was shown in KlSb1997.
- For s>7/4 this can be shown by Strichartz methods.
- For s>2 this can be shown by energy estimates.
GWP and regularity is known for small energy when the target manifold is boundedly parallelizable Tt-p2
- When the target manifold is H^2, regularity was obtained by Krieger Kri-p
- When the target manifold is a sphere, regularity was obtained in Ta-p6
- For small B^{1,1}_2 data GWP is in Tt2001b
- GWP and regularity for small H^1 data was known for corotational wave maps, and can be extended to large H^1 data when the target is geodesically convex SaSw1993, Sw-p2; see also SaTv1992, Gl-p. In the later papers the result is obtained for quite general rotationally symmetric manifolds, such as non-compact manifolds, although one generically expects blow-up for certain manifolds such as the sphere (see e.g. Sw-p2, or the numerics in BizCjTb2001, IbLie-p). The question of large H^1 GWP and regularity is equivalent to the non-existence of non-constant harmonic maps on the target [Sw-p2]. The corotational results have been extended to wave maps with torsion in AcIb2000.
- Regularity is also known for large smooth radial data CdTv1993 assuming a convexity condition on the target manifold. This convexity condition was relaxed in Sw2002, and then removed completely in Sw2003. One also has a pointwise bound on the diameter of the range of the wave map in the radial case under similar conditions on the manifold CdTv1993b
- It is an important open problem whether one has regularity for all large smooth data, at least in the negative curvature case. A slightly harder problem would be to obtain GWP in the critical space H^1.
  - When the target manifold is a sphere, numerical evidence seems to suggest energy concentration and singularity formulation for large equivariant data IbLie-p.In the equivariant case, examples of blowup in H^{1+eps} on domains |x|^alpha < t can be constructed if one adds a forcing term on the right-hand side GeIv-p
- Global weak solutions are known for large energy data MuSw1996, FrMuSw1998, but as far as is known these solutions might develop singularities or become "ghost" solutions.
When the domain and target are S², stationary-rotating solutions exist and are stable with respect to corotational perturbations SaTv1997
BMO-type estimates on distance functions were obtained in Gl1998

@@ Line 1: / Line 1: @@
-====Wave maps on <math>R^2</math>====
+The theory for [[wave maps]] on <math>R^{1+2}</math> is as follows.
 * Scaling is s_c = 1 (energy-critical).
-* LWP in H^1 [[Bibliography#Tt-p2|Tt-p2]]
+* LWP in H^1 [[Tt-p2]]
-** For B^{1,1}_2 this is in [[Bibliography#Tt2001b|Tt2001b]].
+** For B^{1,1}_2 this is in [[Tt2001b]].
-** LWP in H^s, s>1 was shown in [[Bibliography#KlSb1997|KlSb1997]].
+** LWP in H^s, s>1 was shown in [[KlSb1997]].
 ** For s>7/4 this can be shown by Strichartz methods.
 ** For s>2 this can be shown by energy estimates.
-* GWP and regularity is known for small energy when the target manifold is boundedly parallelizable [[Bibliography#Tt-p2|Tt-p2]]
+* GWP and regularity is known for small energy when the target manifold is boundedly parallelizable [[Tt-p2]]
-** When the target manifold is H^2, regularity was obtained by Krieger [[Bibliography#Kri-p|Kri-p]]
+** When the target manifold is H^2, regularity was obtained by Krieger [[Kri-p]]
-** When the target manifold is a sphere, regularity was obtained in [[Bibliography#Ta-p6|Ta-p6]]
+** When the target manifold is a sphere, regularity was obtained in [[Ta-p6]]
-** For small B^{1,1}_2 data GWP is in [[Bibliography#Tt2001b|Tt2001b]]
+** For small B^{1,1}_2 data GWP is in [[Tt2001b]]
-** GWP and regularity for small H^1 data was known for corotational wave maps, and can be extended to large H^1 data when the target is geodesically convex [[Bibliography#SaSw1993 |SaSw1993]], [[Bibliography#Sw-p2|Sw-p2]]; see also [[Bibliography#SaTv1992|SaTv1992]], [[Bibliography#Gl-p|Gl-p]]. In the later papers the result is obtained for quite general rotationally symmetric manifolds, such as non-compact manifolds, although one generically expects blow-up for certain manifolds such as the sphere (see e.g. [[Bibliography#Sw-p2|Sw-p2]], or the numerics in [[Bibliography#BizCjTb2001|BizCjTb2001]], [[Bibliography#IbLie-p|IbLie-p]]). The question of large H^1 GWP and regularity is equivalent to the non-existence of non-constant harmonic maps on the target [Sw-p2]. The corotational results have been extended to wave maps with torsion in [[Bibliography#AcIb2000|AcIb2000]].
+** GWP and regularity for small H^1 data was known for corotational wave maps, and can be extended to large H^1 data when the target is geodesically convex [[SaSw1993]], [[Sw-p2]]; see also [[SaTv1992]], [[Gl-p]]. In the later papers the result is obtained for quite general rotationally symmetric manifolds, such as non-compact manifolds, although one generically expects blow-up for certain manifolds such as the sphere (see e.g. [[Sw-p2]], or the numerics in [[BizCjTb2001]], [[IbLie-p]]). The question of large H^1 GWP and regularity is equivalent to the non-existence of non-constant harmonic maps on the target [Sw-p2]. The corotational results have been extended to wave maps with torsion in [[AcIb2000]].
-** Regularity is also known for large smooth radial data [[Bibliography#CdTv1993|CdTv1993]] assuming a convexity condition on the target manifold. This convexity condition was relaxed in [[Bibliography#Sw2002|Sw2002]], and then removed completely in [[Bibliography#Sw2003|Sw2003]]. One also has a pointwise bound on the diameter of the range of the wave map in the radial case under similar conditions on the manifold [[Bibliography#CdTv1993b|CdTv1993b]]
+** Regularity is also known for large smooth radial data [[CdTv1993]] assuming a convexity condition on the target manifold. This convexity condition was relaxed in [[Sw2002]], and then removed completely in [[Sw2003]]. One also has a pointwise bound on the diameter of the range of the wave map in the radial case under similar conditions on the manifold [[CdTv1993b]]
 ** It is an important open problem whether one has regularity for all large smooth data, at least in the negative curvature case. A slightly harder problem would be to obtain GWP in the critical space H^1.
-*** When the target manifold is a sphere, numerical evidence seems to suggest energy concentration and singularity formulation for large equivariant data [IbLie-p].In the equivariant case, examples of blowup in H^{1+eps} on domains |x|^alpha < t can be constructed if one adds a forcing term on the right-hand side [GeIv-p]
+*** When the target manifold is a sphere, numerical evidence seems to suggest energy concentration and singularity formulation for large equivariant data [[IbLie-p]].In the equivariant case, examples of blowup in H^{1+eps} on domains |x|^alpha < t can be constructed if one adds a forcing term on the right-hand side [[GeIv-p]]
-** Global weak solutions are known for large energy data [[Bibliography#MuSw1996|MuSw1996]], [[Bibliography#FrMuSw1998|FrMuSw1998]], but as far as is known these solutions might develop singularities or become "ghost" solutions.
+** Global weak solutions are known for large energy data [[MuSw1996]], [[FrMuSw1998]], but as far as is known these solutions might develop singularities or become "ghost" solutions.
-* When the domain and target are S<sup>2</sup>, stationary-rotating solutions exist and are stable with respect to corotational perturbations [[Bibliography#SaTv1997|SaTv1997]]
+* When the domain and target are S<sup>2</sup>, stationary-rotating solutions exist and are stable with respect to corotational perturbations [[SaTv1997]]
-* BMO-type estimates on distance functions were obtained in [[Bibliography#Gl1998|Gl1998]]
+* BMO-type estimates on distance functions were obtained in [[Gl1998]]
 [[Category:Wave]]
 [[Category:Equations]]

Wave maps on R2: Difference between revisions

Revision as of 04:41, 2 August 2006

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