Multi-parameter Hopf bifurcations of rimming flows. 2024. [PUMA: Lienstromberg IADM bifurcations Karabash Velázquez Hopf] URL
Long-Time Behavior and Stability for Quasilinear Doubly Degenerate Parabolic Equations of Higher Order. SIAM Journal on Mathematical Analysis, (55)2:674-700, 2023. [PUMA: Lienstromberg Jansen EXC2075 updated Nik PN3-13] URL
A variational approach to the non-newtonian Navier-Stokes equations. 2023. [PUMA: Lienstromberg Schubert IADM Schiffer Navier-Stokes ProjektPN3-13 PN3-13] URL
A data-driven approach to viscous fluid mechanics: The stationary case. Arch. Rational Mech. Anal., (247)302023. [PUMA: Lienstromberg IADM viscous fluid mechanics ProjektPN3-13 exc2075 PN3-13] URL
Well-posedness of a quasilinear evolution problem modelling MEMS with general permittivity. J. Evol. Equ., (17)4:1129--1150, 2017. [PUMA: Lienstromberg IADM problem from:elkepeter MEMS evolution quasilinear modelling] URL
A free boundary value problem modelling microelectromechanical systems with general permittivity. Nonlinear Anal. Real World Appl., (25):190--218, 2015. [PUMA: Lienstromberg IADM systems microelectromechanical from:elkepeter modelling] URL
A qualitative analysis of solutions to microelectromechanical systems with curvature and nonlinear permittivity profile. Comm. Partial Differential Equations, (41)1:134--149, 2016. [PUMA: IADM microelectromechanical solutions analysis Lienstromberg systems qualitative from:elkepeter of to] URL
On qualitative properties of solutions to microelectromechanical systems with general permittivity. Monatsh. Math., (179)4:581--602, 2016. [PUMA: IADM microelectromechanical solutions Lienstromberg systems qualitative from:elkepeter of to properties] URL
Finite-time singularities of solutions to microelectromechanical systems with general permittivity. Ann. Mat. Pura Appl. (4), (195)6:1961--1976, 2016. [PUMA: IADM microelectromechanical solutions permittivity Lienstromberg systems with from:elkepeter to general] URL
A note on model reduction for microelectromechanical systems. Nonlinearity, (30)2:454--465, 2017. [PUMA: Lienstromberg IADM systems microelectromechanical from:elkepeter for model reduction] URL
A survey on second-order free boundary value problems modelling MEMS with general permittivity profile. Discrete Contin. Dyn. Syst. Ser. S, (10)4:745--771, 2017. [PUMA: Lienstromberg IADM from:elkepeter MEMS modelling] URL
Travelling waves in dilatant non-Newtonian thin films. J. Differential Equations, (264)3:2113--2132, 2018. [PUMA: Lienstromberg iadm waves from:elkepeter Travelling] URL
Local strong solutions to a quasilinear degenerate fourth-order thin-film equation. NoDEA Nonlinear Differential Equations Appl., (27)2:Paper No. 16, 28, 2020. [PUMA: Lienstromberg from:elkepeter quasilinear degenerate fourth-order thin-film] URL
Stratified periodic water waves with singular density gradients. Ann. Mat. Pura Appl. (4), (199)5:1923--1959, 2020. [PUMA: Lienstromberg gradients from:elkepeter singular density] URL
Analysis of a two-fluid Taylor-Couette flow with one non-Newtonian fluid. J. Nonlinear Sci., (32)2:Paper No. 24, 55, 2022. [PUMA: Lienstromberg iadm two-fluid from:elkepeter flow Taylor-Couette] URL
Non-Newtonian two-phase thin-film problem: local existence, uniqueness, and stability. Comm. Partial Differential Equations, (47)1:197--232, 2022. [PUMA: Lienstromberg from:elkepeter non-Newtonian film thin] URL
A data-driven approach to viscous fluid mechanics -- the stationary case. arXiv, 2022. [PUMA: Lienstromberg from:elkepeter viscous fluid mechanics] URL
Non-Newtonian thin-film equations: global existence of solutions, gradient-flow structure and guaranteed lift-off. arXiv, 2023. [PUMA: Lienstromberg Analysis IADM PDEs from:elkepeter gradient-flow FOS] URL