P
Peter Kramer
Researcher at University of Padua
Publications - 97
Citations - 2178
Peter Kramer is an academic researcher from University of Padua. The author has contributed to research in topics: Immersed boundary method & Brownian motion. The author has an hindex of 20, co-authored 90 publications receiving 2007 citations. Previous affiliations of Peter Kramer include Duke University & Princeton University.
Papers
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Simplified models for turbulent diffusion : theory, numerical modelling, and physical phenomena
Andrew J. Majda,Peter Kramer +1 more
TL;DR: In this paper, simple mathematical models for the turbulent diffusion of a passive scalar field are developed with an emphasis on the symbiotic interaction between rigorous mathematical theory (including exact solutions), physical intuition, and numerical simulations.
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A stochastic immersed boundary method for fluid-structure dynamics at microscopic length scales
TL;DR: The theoretical analysis and numerical results show that the immersed boundary method with thermal fluctuations captures many important features of small length scale hydrodynamic systems and holds promise as an effective method for simulating biological phenomena on the cellular and subcellular length scales.
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Categorical interference and associative priming in picture naming
TL;DR: The presence of a semantic relation between a context word and a target picture hampers picture naming in a picture-word interference task, but seems to facilitate picture-naming in a semantic priming task as mentioned in this paper.
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Visuospatial priming of the mental number line.
TL;DR: It is concluded that visuospatial-numerical interactions do occur, even before response selection, and cannot be ascribed to a "Spatial-Numerical Association of Response Codes" (SNARC).
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Perceptual grouping in space and time: Evidence from the Ternus display
Peter Kramer,Steven Yantis +1 more
TL;DR: It is argued that grouping in the spatial and temporal domains interact to yield perceptual experience of apparent-motion displays by finding that grouping influenced apparent motion perception.