[1] Wang Meiying,. Subspaces for weak mild solutionsof the second order abstract differential equation [J]. Journal of Southeast University (English Edition), 2007, 23 (2): 313-316. [doi:10.3969/j.issn.1003-7985.2007.02.032]
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Subspaces for weak mild solutionsof the second order abstract differential equation(
)
)Journal of Southeast University (English Edition)[ISSN:1003-7985/CN:32-1325/N]
- Volumn:
- 23
- Issue:
- 2007 2
- Page:
- 313-316
- Research Field:
- Mathematics, Physics, Mechanics
- Publishing date:
- 2007-06-30
Info
- Title:
- Subspaces for weak mild solutionsof the second order abstract differential equation
- Author(s):
- Wang Meiying
- Department of Applied Mathematics, Nanjing Audit University, Nanjing 210029, China
- Keywords:
- second order abstract differential equation; polynomially bounded solution; cosine operator function
- PACS:
- O177.5
- DOI:
- 10.3969/j.issn.1003-7985.2007.02.032
- Abstract:
- The topic on the subspaces for the polynomially or exponentially bounded weak mild solutions of the following abstract Cauchy problem (d2)/(2dt2)u2(t, x)=Au(t, x); u(0, x)=x, (d)/(dt)u(0, x)=0, x∈X is studied, where A is a closed operator on Banach space X. The case that the problem is ill-posed is treated, and two subspaces Y(A, k) and H(A, ω)are introduced. Y(A, k)is the set of all x in X for which the second order abstract differential equation has a weak mild solution v(t, x)such that ess sup(1+t)-k|(d)/(dt)〈v(t, x), x*〉|:t≥0, x*∈X*, =x*=≤1<+∞.H(A, ω)is the set of all x in X for which the second order abstract differential equation has a weak mild solution v(t, x)such that ess supe-ωt|(d)/(dt)〈v(t, x), x*〉|:t≥0, x*∈X*, =x*=≤1<+∞. The following conclusions are proved that Y(A, k)and H(A, ω)are Banach spaces, and both are continuously embedded in X;the restriction operator AY(A, k) (, )generates a once-integrated cosine operator family {C(t)}t≥00 such that lim—h→0+(1)/h=C(t+h)-C(t)=Y(A, k)≤M(, )(1+t)k, ∠t≥0; the restriction operator AH(A, ω) (, )generates a once-integrated cosine operator family {C(t)}t≥0 0such that lim—h→0+1/h=C(t+h)-C(t)=H(A, ω)≤M(, )eωt, ∠t≥0.
References:
[1] de Laubenfels R.Existence families, functional calculi and evolution equations[C]//Lecture Notes in Mathematics.Berlin:Springer-Verlag, 1994, 1570:27-54.
[2] Arendt W, Batty Ch J K, Hieber M, et al.Vector-valued Laplace transforms and Cauchy problems[M].Birkhauser, 2001.
[3] de Laubenfels R, Huang Z, Wang S, et al.Laplace transforms of polynomially bounded vector-valued functions and semigroups of operators [J].Israel Journal of Mathematics, 1997, 98:189-207.
[4] Wang Shenwang.Hille-Yosida type theorems for local regularized semigroups and local integrated semigroups[J].Studia Mathematica, 2002, 152(1):45-67.
[5] Davies E B, Pang M M.The Cauchy problem and a generalization of the Hille-Yosida theorem[J].Proc London Math Soc, 1987, 55:181-208.
[6] Arendt W.Vector-valued Laplace transforms and Cauchy problems [J].Israel Journal of Mathematics, 1987, 59:327-352.
[7] Wang Meiying, Jiang Huikun.Maximal subspaces for polynomially bounded solutions of the second order abstract differential equation[J].Journal of Nanjing University:Natural Science Edition, 2006, 42(1):11-16.(in Chinese)
[8] Wang Shenwang, Wang Meiying, Shen Yan.Perturbation theorems for local integrated semigroups and their applications[J].Studia Mathematica, 2005, 170(2):121-146.
Memo
- Memo:
- Biography: Wang Meiying(1950—), female, professor, nsjwangmy@sina.com.