KP-II equation: Difference between revisions

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* Scaling is s1 + 2s2 + 1/2 = 0.  
* Scaling is s1 + 2s2 + 1/2 = 0.  
* GWP for s1 > -1/14, s2 = 0 [IsMj2003].  
* GWP for s1 > -1/14, s2 = 0 [[IsMj2003]].  
** For s1 > -1/64 this is also in [IsMj2001].  
** For s1 > -1/64 this is also in [[IsMj2001]].  
* GWP for s1 > -1/78, s2 = 0 [Tk-p] assuming a moment condition.   
* GWP for s1 > -1/78, s2 = 0 [[Tk2000]] assuming a moment condition.   
** A similar result, with a slightly stricter constraint on s1 but no moment condition, was obtained in [Tz-p].   
** A similar result, with a slightly stricter constraint on s1 but no moment condition, was obtained in [[Tz2000]].   
** For s1 = s2 ³ 0 this was proven in [Bo1993c], and this argument also applies to the periodic setting.  Heuristically this result is indicated by the local smoothing estimates in [Sau1993].  
** For s1 = s2 ³ 0 this was proven in [[Bo1993c]], and this argument also applies to the periodic setting.  Heuristically this result is indicated by the local smoothing estimates in [[Sau1993]].  
LWP for s1 > -1/3, s2 = 0 [TkTz-p4], [IsMj2001]  
LWP for s1 > -1/3, s2 = 0 [[TkTz2001]], [[IsMj2001]]  
** For s1 > -1/4, s2 = 0 this was shown in [Tk-p2]  
** For s1 > -1/4, s2 = 0 this was shown in [[Tk2000b]]  
** For s1 > -e, s2 = 0 and small data this was shown in [Tz1999].  
** For s1 > -e, s2 = 0 and small data this was shown in [[Tz1999]].  
** For s1 = s2 ³ 0 this was proven in [Bo1993c], and this argument also applies to the periodic setting.  
** For s1 = s2 ³ 0 this was proven in [[Bo1993c]], and this argument also applies to the periodic setting.  
** For s1, s2 ³ 3 this is in [Uk1989]  
** For s1, s2 ³ 3 this is in [[Uk1989]]  
** Related results are in [IoNu1998], [IsMjStb2001].  
** Related results are in [[IoNu1998]], [[IsMjStb2001]].  
* Weak solutions in a weighted L2 space were constructed in [Fa1990].  
* Weak solutions in a weighted L2 space were constructed in [[Fa1990]].  
* For s1 < -1/3 the natural bilinear estimate fails [TkTz-p4].  
* For s1 < -1/3 the natural bilinear estimate fails [[TkTz2001]].  
* Remark: Unlike KP-I, KP-II does not admit soliton solutions.  
* Remark: Unlike KP-I, KP-II does not admit soliton solutions.  


The KP-II equation can be generalized to three dimensions (replace partial_yy with partial_yy + partial_zz), with s_1 regularity in the x direction and s_2 in the y,z directions.  Scaling is now s_1 + 2s_2 – ½ = 0.  In isotropic spaces, local well-posedness in H^s with s > 3/2 was established assuming the low frequency condition that partial_x^{-1} u is also in H^s [Tz1999].  Anisotropically, local well-posedness in the space s_1 > 1, s_2 > 0 was established in [IsLopMj-p].
The KP-II equation can be generalized to three dimensions (replace partial_yy with partial_yy + partial_zz), with s_1 regularity in the x direction and s_2 in the y,z directions.  Scaling is now s_1 + 2s_2 – ½ = 0.  In isotropic spaces, local well-posedness in H^s with s > 3/2 was established assuming the low frequency condition that partial_x^{-1} u is also in H^s [[Tz1999]].  Anisotropically, local well-posedness in the space s_1 > 1, s_2 > 0 was established in [[IsLopMj-p]].
 
[[Category:Equations]]
[[Category:Integrability]]

Latest revision as of 01:22, 17 March 2007

The KP-II equation is the special case of the Kadomtsev-Petviashvili equation when the parameter is positive.

  • Scaling is s1 + 2s2 + 1/2 = 0.
  • GWP for s1 > -1/14, s2 = 0 IsMj2003.
    • For s1 > -1/64 this is also in IsMj2001.
  • GWP for s1 > -1/78, s2 = 0 Tk2000 assuming a moment condition.
    • A similar result, with a slightly stricter constraint on s1 but no moment condition, was obtained in Tz2000.
    • For s1 = s2 ³ 0 this was proven in Bo1993c, and this argument also applies to the periodic setting. Heuristically this result is indicated by the local smoothing estimates in Sau1993.

LWP for s1 > -1/3, s2 = 0 TkTz2001, IsMj2001

    • For s1 > -1/4, s2 = 0 this was shown in Tk2000b
    • For s1 > -e, s2 = 0 and small data this was shown in Tz1999.
    • For s1 = s2 ³ 0 this was proven in Bo1993c, and this argument also applies to the periodic setting.
    • For s1, s2 ³ 3 this is in Uk1989
    • Related results are in IoNu1998, IsMjStb2001.
  • Weak solutions in a weighted L2 space were constructed in Fa1990.
  • For s1 < -1/3 the natural bilinear estimate fails TkTz2001.
  • Remark: Unlike KP-I, KP-II does not admit soliton solutions.

The KP-II equation can be generalized to three dimensions (replace partial_yy with partial_yy + partial_zz), with s_1 regularity in the x direction and s_2 in the y,z directions. Scaling is now s_1 + 2s_2 – ½ = 0. In isotropic spaces, local well-posedness in H^s with s > 3/2 was established assuming the low frequency condition that partial_x^{-1} u is also in H^s Tz1999. Anisotropically, local well-posedness in the space s_1 > 1, s_2 > 0 was established in IsLopMj-p.