Volodymyr Rybalko scite author profile

Volodymyr Rybalko

4Publications

162Citation Statements Received

187Citation Statements Given

How they've been cited

159

How they cite others

184

Affiliations

B. Verkin Institute for Low Temperature Physics and Engineering, M.N. Mikheev Institute of Metal Physics, National Academy of Sciences of Ukraine

Publications

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Solutions with vortices of a semi-stiff boundary value problem for the Ginzburg–Landau equation

Berlyand¹,

Rybalko

2010

J. Eur. Math. Soc.

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Abstract. We study solutions of the 2D Ginzburg-Landau equationsubject to "semi-stiff" boundary conditions: Dirichlet conditions for the modulus, |u| = 1, and homogeneous Neumann conditions for the phase. The principal result of this work shows that there are stable solutions of this problem with zeros (vortices), which are located near the boundary and have bounded energy in the limit of small ε. For the Dirichlet boundary condition ("stiff" problem), the existence of stable solutions with vortices, whose energy blows up as ε → 0, is well known. By contrast, stable solutions with vortices are not established in the case of the homogeneous Neumann ("soft") boundary condition.In this work, we develop a variational method which allows one to construct local minimizers of the corresponding Ginzburg-Landau energy functional. We introduce an approximate bulk degree as the key ingredient of this method; unlike the standard degree over the curve, it is preserved in the weak H 1 -limit.

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Nonexistence of Ginzburg–Landau minimizers with prescribed degree on the boundary of a doubly connected domain

Berlyand¹,

Golovaty

Rybalko

2006

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Minimax Critical Points in Ginzburg-Landau Problems with Semi-Stiff Boundary Conditions: Existence and Bubbling

Berlyand

Mironescu

Rybalko

et al. 2014

Communications in Partial Differential Equations

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Let Ω ⊂ R 2 be a smooth bounded simply connected domain. We consider the simplified Ginzburg-2 , where u : Ω → C. We prescribe |u| = 1 and deg (u, ∂Ω) = 1. In this setting, there are no minimizers of E ε . Using a mountain pass approach, we obtain existence of critical points of E ε for large ε. Our analysis relies on Wente estimates and on the study of bubbling phenomena for Palais-Smale sequences.

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Asymptotic analysis of a double porosity model with thin fissures

Pankratov¹,

Rybalko²

2003

Sb. Math.

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