full
search.png

Search

close.png

Cancel

arrow
Volume 24, Issue 3
Very Singular Similarity Solutions and Hermitian Spectral Theory for Semilinear Odd-order PDEs

R. S. Fernandes & V. A. Galaktionov

DOI: 10.4208/jpde.v24.n3.2

J. Part. Diff. Eq., 24 (2011), pp. 207-263.

Published online: 2011-08

Preview Purchase PDF 1018 28388

Cited by

google scholar semantic scholar
Export citation
  • Abstract

Asymptotic large- and short-time behavior of solutions of the linear dispersion equation u_t = u_{xxx} in R×R_+, and its (2k+1)th-order extensions are studied. Such a refined scattering is based on a "Hermitian" spectral theory for a pair {B,B^∗} of non self-adjoint rescaled operators  B=D^3_y+\frac13yD_y+\frac13I, and the adjoint one B^∗=D^3_y-\frac13yD_y, with the discrete spectrum σ(B)=σ(B^∗)={λ_l=-l/3, l=0,1,2,...} and eigenfunctions for B, {ψ_l(y)=[(-1)^l/\sqrt{l!}]D^l_yAi(y), l ≥ 0}, where Ai(y) isAiry's classic function. Eigenfunctions of B^∗ are then generalized Hermite polynomials. Applications to very singular similarity solutions (VSSs) of the semilinear dispersion equation with absorption, u_S(x,t)=t^{-\frac{1}{p-1}}f(\frac{x}{t^{\frac13}}): u_t=u_{xxx}-|u|^{p-1}u in R×R_+, p > 1, and to its higher-order counterparts are presented. The goal is, by using various techniques, to show that there exists a countable sequence of critical exponents {p_l=1+3/(l+1), l=0,1,2,...} such that, at each p= p_l , a p-branch of VSSs bifurcates from the corresponding eigenfunction ψ_l of the linear operator B above.

  • Keywords

Odd-order linear and semilinear PDEs fundamental solution Hermitian spectral theory polynomial eigenfunctions self-similarity very singular solutions bifurcations branching

  • AMS Subject Headings

35K55 35K40

  • Copyright

COPYRIGHT: © Global Science Press

  • Email address
  • BibTex
  • RIS
  • TXT
@Article{JPDE-24-207, author = {}, title = {Very Singular Similarity Solutions and Hermitian Spectral Theory for Semilinear Odd-order PDEs}, journal = {Journal of Partial Differential Equations}, year = {2011}, volume = {24}, number = {3}, pages = {207--263}, abstract = {

Asymptotic large- and short-time behavior of solutions of the linear dispersion equation u_t = u_{xxx} in R×R_+, and its (2k+1)th-order extensions are studied. Such a refined scattering is based on a "Hermitian" spectral theory for a pair {B,B^∗} of non self-adjoint rescaled operators  B=D^3_y+\frac13yD_y+\frac13I, and the adjoint one B^∗=D^3_y-\frac13yD_y, with the discrete spectrum σ(B)=σ(B^∗)={λ_l=-l/3, l=0,1,2,...} and eigenfunctions for B, {ψ_l(y)=[(-1)^l/\sqrt{l!}]D^l_yAi(y), l ≥ 0}, where Ai(y) isAiry's classic function. Eigenfunctions of B^∗ are then generalized Hermite polynomials. Applications to very singular similarity solutions (VSSs) of the semilinear dispersion equation with absorption, u_S(x,t)=t^{-\frac{1}{p-1}}f(\frac{x}{t^{\frac13}}): u_t=u_{xxx}-|u|^{p-1}u in R×R_+, p > 1, and to its higher-order counterparts are presented. The goal is, by using various techniques, to show that there exists a countable sequence of critical exponents {p_l=1+3/(l+1), l=0,1,2,...} such that, at each p= p_l , a p-branch of VSSs bifurcates from the corresponding eigenfunction ψ_l of the linear operator B above.

}, issn = {2079-732X}, doi = {https://doi.org/10.4208/jpde.v24.n3.2}, url = {http://global-sci.org/intro/article_detail/jpde/5208.html} }
TY - JOUR T1 - Very Singular Similarity Solutions and Hermitian Spectral Theory for Semilinear Odd-order PDEs JO - Journal of Partial Differential Equations VL - 3 SP - 207 EP - 263 PY - 2011 DA - 2011/08 SN - 24 DO - http://doi.org/10.4208/jpde.v24.n3.2 UR - https://global-sci.org/intro/article_detail/jpde/5208.html KW - Odd-order linear and semilinear PDEs KW - fundamental solution KW - Hermitian spectral theory KW - polynomial eigenfunctions KW - self-similarity KW - very singular solutions KW - bifurcations KW - branching AB -

Asymptotic large- and short-time behavior of solutions of the linear dispersion equation u_t = u_{xxx} in R×R_+, and its (2k+1)th-order extensions are studied. Such a refined scattering is based on a "Hermitian" spectral theory for a pair {B,B^∗} of non self-adjoint rescaled operators  B=D^3_y+\frac13yD_y+\frac13I, and the adjoint one B^∗=D^3_y-\frac13yD_y, with the discrete spectrum σ(B)=σ(B^∗)={λ_l=-l/3, l=0,1,2,...} and eigenfunctions for B, {ψ_l(y)=[(-1)^l/\sqrt{l!}]D^l_yAi(y), l ≥ 0}, where Ai(y) isAiry's classic function. Eigenfunctions of B^∗ are then generalized Hermite polynomials. Applications to very singular similarity solutions (VSSs) of the semilinear dispersion equation with absorption, u_S(x,t)=t^{-\frac{1}{p-1}}f(\frac{x}{t^{\frac13}}): u_t=u_{xxx}-|u|^{p-1}u in R×R_+, p > 1, and to its higher-order counterparts are presented. The goal is, by using various techniques, to show that there exists a countable sequence of critical exponents {p_l=1+3/(l+1), l=0,1,2,...} such that, at each p= p_l , a p-branch of VSSs bifurcates from the corresponding eigenfunction ψ_l of the linear operator B above.

R. S. Fernandes & V. A. Galaktionov . (2019). Very Singular Similarity Solutions and Hermitian Spectral Theory for Semilinear Odd-order PDEs. Journal of Partial Differential Equations. 24 (3). 207-263. doi:10.4208/jpde.v24.n3.2
Copy to clipboard
BibteX RIS TXT
The citation has been copied to your clipboard