Touchdown solutions in general MEMS models

Abstract

We study general equations modeling electrostatic MEMS devices equation cases P (r,- u'(r))=λ∫0rf(s)g(u(s))\,ds, & r∈(0,1), \\ 0 < u(r) < 1, & r∈(0,1), \\ u(1) = 0, Pλ cases equation where , g, f are some functions on [0,1] and λ>0 is a parameter. We obtain results on the existence and regularity of a touchdown solution to P and find upper and lower bounds on the respective pull-in voltage. In the particular case, when (r,v) = rα |v|β v, i.e., when the associated differential equation involves the operator r-γ(rα |u'|β u')', we obtain an exact asymptotic behavior of the touchdown solution in a neighborhood of the origin.