Atomic and Molecular Beams: Production and Collimation
Nutritive
$ 67.94
DescriptionAtomic and molecular beams are employed in physics and chemistry experiments and, to a lesser extent, in the biological sciences. These beams enable atoms to be studied under collision-free conditions and allow the study of their interaction with other atoms, charged particles, radiation, and surfaces. Atomic and Molecular Beams: Production and Collimation explores the latest techniques for producing a beam from any substance as well as from the dissociation of hydrogen, oxygen, nitrogen, and the halogens.The book not only provides the basic expressions essential to beam design but also offers in-depth coverage ofDesign of ovens and furnaces for atomic beam productionCreation of atomic beams that require higher evaporation temperaturesTheory of beam formation including the Clausing equation and the transmission probabilityConstruction of collimating arrays in metals, plastics, glass, and other materialsOptimization of the design of atomic beam collimatorsWhile many review articles and books discuss the application of atomic beams, few give technical details of their production. Focusing on practical application in the laboratory, the author critically reviews over 800 references to compare the atomic and molecular beam formation theories with actual experiments. Atomic and Molecular Beams: Production and Collimation is a comprehensive source of material for experimentalists facing the design of any atomic or molecular beam and theoreticians wishing to extend the theory.Table of ContentsIntroductionThe Kinetic Theory of Gases and Atomic Beam TerminologyThe Design of OvensOvens for Evaporation of Alkali Metals and Their SaltsOvens for Higher TemperaturesThe Production of Beams of Dissociated Atoms and Other RadicalsGasesThe Theory of Collimated Atomic Beam FormationDesigning an Atomic BeamTechniques of Multichannel Collimator ConstructionThe Comparison of Theory with MeasurementsOther IndicationsConcluding ObservationsAuthor DescriptionC.B. Lucas studied physics and obtained his Ph.D at University College London. He held successive research posts at the UKAEA Culham Laboratory, the universities of Tübingen, York, Münster, and Royal Holloway College of the University of London. The remainder of Lucas’ full-time career was in administrative posts, but in his retirement he has kept in contact with the academic world as a part-time tutor for the Open University and particularly in continuing with the research needed to produce this book.