In this paper,the following result is given by using Hodge decomposition: There exists r(0) = r(0)(n,p,a,b), such that if u is an element of W-loc(1,r)(Omega) is a very weak solution of (1.1),with C max{1,p - 1} < ...In this paper,the following result is given by using Hodge decomposition: There exists r(0) = r(0)(n,p,a,b), such that if u is an element of W-loc(1,r)(Omega) is a very weak solution of (1.1),with C max{1,p - 1} < r < p and u is an element of W-0(1,r)(Omega;partial derivativeOmega\E) where E subset of partial derivativeOmega is a closed set and small in an appropriate capacity sense, then u = 0, a.e. in Omega provided that r(0) < r < p.展开更多
In this paper, the following result is given by using Hodge decomposition and weak reverse Holder inequality: For every r1 with P-(2^n+1 100^n^2 p(2^3+n/(P-1)+1)b/a)^-1〈r1〈p,there exists the exponent r2 =...In this paper, the following result is given by using Hodge decomposition and weak reverse Holder inequality: For every r1 with P-(2^n+1 100^n^2 p(2^3+n/(P-1)+1)b/a)^-1〈r1〈p,there exists the exponent r2 = r2(n, r1,p) 〉 p, such that for every very weak solution u∈W^1r1,loc(Ω) to A-harmonic equation, u also belongs to W^1r2,loc(Ω) . In particular, u is the weak solution to A-harmonic equation in the usual sense.展开更多
This paper deals with the very weak solutions of A-harmonic equation divA(x, u(x))=0 (*)where the operator A satisfies the monotonicity inequality, the controllable growth condition and the homogeneity conditio...This paper deals with the very weak solutions of A-harmonic equation divA(x, u(x))=0 (*)where the operator A satisfies the monotonicity inequality, the controllable growth condition and the homogeneity condition. The extremum principle for very weak solutions of A-harmonic equation is derived by using the stability result of Iwaniec-Hodge decomposition: There exists an integrable exponent r1=r1(p,n,β/α)=1/2[p-α/100n^2β+√(p+α/100n^2β)^2-4α/100n^2β] such that if u(x) ∈ W^1,r(Ω)is a very weak solution of the A-harmonic equation (*), and m ≤ u(x) ≤ M on ЭΩ in the Sobolev sense, then m ≤u(x) 〈 M almost everywhere in Ω, provided that r 〉 r1. As a corollary, we prove that the O-Dirichlet boundary value problem {div_A(x, u(x))=0,u∈W0^1,r(Ω)of the A-harmonic equation has only zero solution if r 〉 r1.展开更多
In this paper,we study the very weak solutions to some nonlinear elliptic systems with righthand side integrable data with respect to the distance to the boundary.Firstly,we study the existence of the approximate solu...In this paper,we study the very weak solutions to some nonlinear elliptic systems with righthand side integrable data with respect to the distance to the boundary.Firstly,we study the existence of the approximate solutions.Secondly,a priori estimates are given in the framework of weighted spaces.Finally,we prove the existence,uniqueness and regularity of the very weak solutions.展开更多
For the generalized Beltrami system with two characteristic matrices, we deal with the regularity of its very weak solutions in the Sobolev class (1 < r < n). By changing the generalized Beltrami system into a ...For the generalized Beltrami system with two characteristic matrices, we deal with the regularity of its very weak solutions in the Sobolev class (1 < r < n). By changing the generalized Beltrami system into a class of a divergent elliptic system with nonhomogeneous items, we obtain that each of its very weak solutions is essentially a classical weak solution of a usual Sobolev class. Furthermore, we also establish a higher regularity of its weak solution if the regularity hypotheses of two characteristic matrices are improved.展开更多
文摘In this paper,the following result is given by using Hodge decomposition: There exists r(0) = r(0)(n,p,a,b), such that if u is an element of W-loc(1,r)(Omega) is a very weak solution of (1.1),with C max{1,p - 1} < r < p and u is an element of W-0(1,r)(Omega;partial derivativeOmega\E) where E subset of partial derivativeOmega is a closed set and small in an appropriate capacity sense, then u = 0, a.e. in Omega provided that r(0) < r < p.
文摘In this paper, the following result is given by using Hodge decomposition and weak reverse Holder inequality: For every r1 with P-(2^n+1 100^n^2 p(2^3+n/(P-1)+1)b/a)^-1〈r1〈p,there exists the exponent r2 = r2(n, r1,p) 〉 p, such that for every very weak solution u∈W^1r1,loc(Ω) to A-harmonic equation, u also belongs to W^1r2,loc(Ω) . In particular, u is the weak solution to A-harmonic equation in the usual sense.
文摘This paper deals with the very weak solutions of A-harmonic equation divA(x, u(x))=0 (*)where the operator A satisfies the monotonicity inequality, the controllable growth condition and the homogeneity condition. The extremum principle for very weak solutions of A-harmonic equation is derived by using the stability result of Iwaniec-Hodge decomposition: There exists an integrable exponent r1=r1(p,n,β/α)=1/2[p-α/100n^2β+√(p+α/100n^2β)^2-4α/100n^2β] such that if u(x) ∈ W^1,r(Ω)is a very weak solution of the A-harmonic equation (*), and m ≤ u(x) ≤ M on ЭΩ in the Sobolev sense, then m ≤u(x) 〈 M almost everywhere in Ω, provided that r 〉 r1. As a corollary, we prove that the O-Dirichlet boundary value problem {div_A(x, u(x))=0,u∈W0^1,r(Ω)of the A-harmonic equation has only zero solution if r 〉 r1.
基金supported by the Fundamental Research Funds for the Central Universities(Grant No.DUT13JS05)
文摘In this paper,we study the very weak solutions to some nonlinear elliptic systems with righthand side integrable data with respect to the distance to the boundary.Firstly,we study the existence of the approximate solutions.Secondly,a priori estimates are given in the framework of weighted spaces.Finally,we prove the existence,uniqueness and regularity of the very weak solutions.
基金Supported by the National Natural Science Foundation of China(49805005)by the research foundation of Northern Jiaotong University(2002SM061).
文摘For the generalized Beltrami system with two characteristic matrices, we deal with the regularity of its very weak solutions in the Sobolev class (1 < r < n). By changing the generalized Beltrami system into a class of a divergent elliptic system with nonhomogeneous items, we obtain that each of its very weak solutions is essentially a classical weak solution of a usual Sobolev class. Furthermore, we also establish a higher regularity of its weak solution if the regularity hypotheses of two characteristic matrices are improved.
