Instead, he suggests that individual clusters could be used to guide self - assembling
materials on a microscopic scale.
Not exact matches
This special issue addresses modern developments in controlling and manipulating light: how light - based technologies are shrinking and becoming faster (Koenderink et al., p. 516); how recent theoretical developments in the manipulation of light are being implemented to provide
materials with properties not available in nature (Pendry et al., p. 521); how the quantum properties of light are being exploited in new technologies (Walmsley, p. 525); and how new light sources are coming online that can probe the structure of matter
on spatial and time
scales that provide an exquisitely detailed picture of our
microscopic world (Miao et al., p. 530).
«
On a microscopic scale various layers of cement appear, and each one provides information on the moment when they precipitated, the conditions that existed, etc.» Secondly, they analysed the materials trapped in these cements where «we found foundry slag from the industrial revolution, even waste bearing the seals of European companies that used to dump their slag when they arrived with their vessel
On a
microscopic scale various layers of cement appear, and each one provides information
on the moment when they precipitated, the conditions that existed, etc.» Secondly, they analysed the materials trapped in these cements where «we found foundry slag from the industrial revolution, even waste bearing the seals of European companies that used to dump their slag when they arrived with their vessel
on the moment when they precipitated, the conditions that existed, etc.» Secondly, they analysed the
materials trapped in these cements where «we found foundry slag from the industrial revolution, even waste bearing the seals of European companies that used to dump their slag when they arrived with their vessels.
Despite the fact that a great many storage devices — among them computer hard drives and cassette tapes — rely
on magnetic
materials, scientists don't really know how they operate
on a
microscopic scale.
Lars Berglund, a professor at Wallenberg Wood Science Center at KTH, says that while optically transparent wood has been developed for
microscopic samples in the study of wood anatomy, the KTH project introduces a way to use the
material on a large
scale.
This ability to control waves derives from how the
material is structured, often
on a
microscopic scale.