2,642 research outputs found
High resolution mechanics of viruses studied by Atomic Force Microscopy
Schmidt, C.F. [Promotor]Wuite, G.J.L. [Copromotor
Dynamics of Active and Passive Microtubule-Crosslinking Proteins
Schmidt, C.F. [Promotor]Peterman, E.J.G. [Copromotor
Single-protein motion on microtubules and in cell membranes
Schmidt, C.F. [Promotor]Vies, S.M. van der [Promotor]Peterman, E.J.G. [Copromotor
Chaperonin-assisted protein folding: the peculiar case of the bacteriophage T4 major capsid protein
Vies, S.M. van der [Promotor]Schmidt, C.F. [Promotor]Peterman, E.J.G. [Copromotor]Heerikhuizen, H. van [Copromotor
Optical trapping, biomolecules and cooperativity
Schmidt, C.F. [Promotor]Stienen, G.J.M. [Promotor]Wuite, G.J.L. [Copromotor
Hymne auf Gott
von C.F. Schmidt-Phiseldeck ; in Musik gesetzt von F.L.Æ. Kunzen ; [Einleitung und Schlusschor von A. Liste]Für Solostimmen, gemischten Chor und OrchesterKlavierauszug: Bearbeitung für eine Singstimme und Klavie
Katalog der Musikbibliothek Peters ...
Classified, with author indexes.Preface signed: C.F. Peters. Dr. Emil Vogel, bibliothekar.Abth. 1. Theoretische Werke.--Abth. 2. Praktische Werke.Mode of access: Internet
An Extension to the Model of Inequity Aversion by Fehr and Schmidt
The aim of this paper is to improve on the model by Fehr and Schmidt (1999) by developing a non-linear model (that leads to interior rather than corner solutions) and by taking into account that different levels of income imply different reactions of fair-minded people. We suggest to modify the inequity-aversion utility function proposed by Fehr and Schmidt by taking into account not only the difference between players' payoffs, but also their absolute value. This allows for a non-linear utility function where different stakes lead to different unique optimal interior solutions.
Motion of quantum vortex lines near realistic rough boundaries
We numerically solve the three--dimensional, time--dependent Gross--Pitaevskii equation to model a superfluid flowing over a realistic rough boundary. Our model for the boundary is based on the atom--force microscope image of a NbTi vibrating wire used to generate turbulence in actual experiments. We find that near the boundary a dense region of quantum vortices is created, which forms a kind of `superfluid boundary layer'
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