Howard A. Stone
From Wikipedia, the free encyclopedia
Howard Alvin Stone (born January 19, 1960 ) is a Professor of Engineering and Applied Mathematics at Harvard University. His field of research is in Fluid mechanics, Chemical engineering and Complex fluids.
He did his undergraduate studies at University of California at Davis and earned his Ph.D. at Caltech. He joined the Harvard faculty in 1989 after spending one year as a post-doctoral fellow in the Department of Applied Mathematics and Theoretical Physics at Cambridge University. His research has been concerned with a variety of fundamental problems in fluid motions dominated by viscosity, so-called low Reynolds number flows, and has frequently featured a combination of theory, computer simulation and modeling, and experiments to provide a quantitative understanding of the flow phenomenon under investigation.
Stone's studies have been directed toward heat transfer and mass transfer problems involving convection, diffusion and surface reactions. He has made contributions to a wide range of problems involving effects of surface tension, buoyancy, fluid rotation, and surfactants. He has also studied problems concerning the flow of lipid bilayers and monolayers, and has investigated the motions of particles suspended in such interfacial layers. This research area is actively pursued by researchers at the interface of chemistry, physics and engineering.
[edit] Notable papers
- H. A. Stone, "Dynamics of Drop Deformation and Breakup in Viscous Fluids", Annual Review of Fluid Mechanics 26, 65-102 (1994)
- H. A. Stone, A. D. Strookc, A. Ajdari, "ENGINEERING FLOWS IN SMALL DEVICES, Microfluidics Toward a Lab-on-a-Chip", Annual Review of Fluid Mechanics 36, 381-411 (2004)
- W. E. Briles, H. A. Stone, R. K. Cole, "Marek's disease: effects of B histocompatibility alloalleles in resistant and susceptible chicken lines.", Science 195, 193-195 (1977)
- B. A. Grzybowski, H. A. Stone, G. M. Whitesides, "Dynamic self-assembly of magnetized, millimetre-sized objects rotating at a liquid–air interface", Nature 405, 1033-1036 (2000)