Stereology And Morphometry In Electron Microscopy
Scientific Applications of Multiprocessors (Prentice Hall International Series in Computing Science)
Near Field Optics (Nato Science Series E:, #242) (NATO ASI, v. 242)
Scanning near-field optical microscopy (SNOM, also known as NSOM) is a new local probe technique with a resolving power of 10--50 nm. Not being limited by diffraction, near-field optics (NFO) opens new perspectives for optical characterization and the understanding of optical phenomena, in particular in biology, microelectronics and materials science. SNOM, after first demonstrations in '83/'84, has undergone a rapid development in the past two to four years. The increased interest has...
Suggested experiments introduce the characteristics and uses of paper and demonstrate some basic scientific principles.
The Physical Principles of Stm and Afm Operation
by Gerold Doyen and Dejana Drakova
High Aperture Focusing of EM Waves and Applications in Optical Microscopy
by J. R. Sheppard and P. Torok
The Microtomist's Formulary and Guide
Forensic Microscopy
Forensic Microscopy: Truth Under the Lenses provides an overview and understanding of the various types of microscopes and their techniques employed in forensic science. The book emphasizes both the theoretical and practical aspects of microscopy to enrich the reader’s understanding of the various tools, techniques, and utility—including strengths and weaknesses—of types of microscopes in analyzing certain forms of evidence. The book begins with the history of microscopes, the basic optics for...
Science Tools (Learning Center: Emergent Readers)
by Susan Canizares and Betsey Chessen
A simple introduction to some of the tools that help us make scientific discoveries, including the funnel, ruler, magnifier, and eyedropper.
In this book, modern scientists and philosophers of science confront the prophetic legacy of the 17th century philosopher Leibniz-a metaphysical agenda full of ideas presaging today's state of the art research into relativity and quantum cosmology; the physics of force, mass, momentum, time and space; complexity and chaos theories; fundamental particles and multiple worlds; and of the electronic cosmos of our computer era. Their immense relevance to us is demonstrated by the engagement with them...
Iccmse 2007 (AIP Conference Proceedings, v. 963/1-2)
All papers have been peer-reviewed. The aim of ICCMSE 2007 is to bring together computational scientists and engineers from several disciplines in order to share methods, methodologies and ideas. The potential readers of these proceedings are all the scientists with interest in the following fields: Computational Mathematics, Theoretical Physics, Computational Physics, Theoretical Chemistry, Computational Chemistry, Mathematical Chemistry, Computational Engineering, Computational Mechanics, Comp...
The series Practical Methods in Electron Microscopy , edited by Audrey M. Glauert has an international reputation as a unique source of practical information for all electron microscopists. Each book of the series starts from first principles, assuming no specialist knowledge, and is complete in itself. The series will eventually cover the whole range of techniques for electron microscopy. In this latest volume in the popular series, Peter Lewis and David Knight describe in practical detail the...
Large-Scale Scientific Computing (Lecture Notes in Computer Science, #9374) (Theoretical Computer Science and General Issues, #7116)
The papers in this volume were presented at ICLSSC 2001, the Third Inter- tionalConferenceonLarge-ScaleScienti?cComputing. ICLSSC2001washeldin Sozopol,Bulgaria,June6-10,2001. Theconferencewasorganizedandsponsored bytheCentralLaboratoryonParallelProcessingoftheBulgarianAcademyof Sciences,andtheDepartmentofNumericalAnalysisandStatisticsoftheUniv- sityofRouse,Bulgaria. SupportwasalsoreceivedfromtheCenterofExcellence "BIS21"(fundedbytheEuropeanCommission),SIAM(SocietyforIndustrial andAppliedMathemat...