2,642 research outputs found

    High resolution mechanics of viruses studied by Atomic Force Microscopy

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    Schmidt, C.F. [Promotor]Wuite, G.J.L. [Copromotor

    Dynamics of Active and Passive Microtubule-Crosslinking Proteins

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    Schmidt, C.F. [Promotor]Peterman, E.J.G. [Copromotor

    Single-protein motion on microtubules and in cell membranes

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    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

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    Vies, S.M. van der [Promotor]Schmidt, C.F. [Promotor]Peterman, E.J.G. [Copromotor]Heerikhuizen, H. van [Copromotor

    Optical trapping, biomolecules and cooperativity

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    Schmidt, C.F. [Promotor]Stienen, G.J.M. [Promotor]Wuite, G.J.L. [Copromotor

    Hymne auf Gott

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    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 ...

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    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

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    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

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    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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