U
Umar Mohideen
Researcher at University of California, Riverside
Publications - 153
Citations - 8886
Umar Mohideen is an academic researcher from University of California, Riverside. The author has contributed to research in topics: Casimir effect & Casimir pressure. The author has an hindex of 40, co-authored 151 publications receiving 8313 citations. Previous affiliations of Umar Mohideen include Bell Labs & University of California.
Papers
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New developments in the Casimir effect
TL;DR: In this paper, the authors provide a review of both new experimental and theoretical developments in the Casimir effect, and provide the most recent constraints on the corrections to Newtonian gravitational law and other hypothetical long-range interactions at submillimeter range.
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Precision Measurement of the Casimir Force from 0.1 to 0.9 μ m
Umar Mohideen,Anushree Roy +1 more
TL;DR: In this article, an atomic force microscope was used to make precision measurements of the Casimir force between a metallized sphere of diameter 196 \ensuremath{mu}m and flat plate, and the experimental results were consistent with present theoretical calculations including the finite conductivity, roughness, and temperature corrections.
Book
Advances in the Casimir Effect
TL;DR: The Casimir effect between objects of arbitrary shape has been studied in both physical and non-Euclidean topologies as mentioned in this paper and has been applied in both physics and nanotechnology.
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The Casimir force between real materials: Experiment and theory
TL;DR: In this paper, a review of the recent progress at the intersection of experiment and theory has been achieved in the last few years, including a critical assessment of the proposed approaches to the resolution of the puzzles arising in the applications of the Lifshitz theory of the van der Waals and Casimir forces to real materials.
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Precision measurement of the Casimir force using gold surfaces
TL;DR: In this paper, a precision measurement of the Casimir force using metallic gold surfaces is reported, where the force is measured between a large gold-coated sphere and flat plate using an atomic force microscope.