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On the quantization and measurement of momentum observablesMcFarlane, Keith January 1980 (has links)
This thesis is the outcome of research conducted into the quantization of observables defined over a Riemannian configuration manifold, and is naturally divided into three chapters: The first chapter is essentially concerned with the development from physical bases, of the concepts of classical and quantum “global measurability”, which, when combined with the requirement that all quantizable momenta shall be either classically or quantum mechanically globally measurable, result in the exclusion form the class of quantizable momenta of all those observables which are not quantizable in accordance with G. W. Mackey's natural procedure. The refinement of exact global measurability is then introduced and the physically important class of “killing” momenta are found to be exactly classically and quantum mechanically globally measurable and moreover quantizable by means of Mackey's scheme. The second chapter seeks to analyse the algebraic structure of the Mackey-quantizable momenta, so as to compare and contrast his geometric scheme with the various algebraic schemes which have frequently been proposed. As an extension of this work, a natural geometric quantization is proposed for the more general class of observables “linear in momentum”, the set of quantizable such entities determines, and its algebraic properties discussed. It is concluded that, if Mackey's procedure is, as we argue, correct and exhaustive of the quantizable momenta, then algebraic rules of quantization do not, in general, obtain among the momenta defined over a Riemannian space, ‘though in the case of momenta, such as the Killing momenta, reflecting the symmetry of the configuration manifold, such laws not only exist but are moreover of great practical importance. The third chapter is concerned with the quantization of the observables “multilinear in momentum” and in particular with the delimitation of the possible operators of formal quantization as circumscribed by the requirement of operator symmetry, and the question of the essential self-adjointness of local observables associated with the multilinear momenta. Finally some possible means of determining and exact quantization are discussed and contrasted and a tentative selection made of a particular scheme which is then illustrated by concrete example on the real line with the usual metric. We conclude this preface with a brief indication of the layout of the thesis: Each chapter or associated group of appendices has been treated for the purpose of all textual numbering and referencing systems, as a separate unit, and is prefixed by a detailed list of contents, and concluded by the appropriate group of reference, so that all pointers of a chapter or group of appendices refer, unless otherwise indicated, to the text of that chapter or group of appendices. Finally note that a bibliography has been included which will serve as a collected list of references to papers and books employed.
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Monitoring the states of single quantum systems.Garapo, Kevin. January 2012 (has links)
Continuous weak measurement provide a convenient way to gather information about a quantum
system without the need to prepare huge ensembles of identical systems as required by standard
quantum measurement theory. Even though weak measurement alter the dynamics of the wave
function slightly, they nevertheless are a good tool to monitor the dynamics of the wave function
in real time in the presence of certain perturbations, for example, sudden momentum kicks due to
collisions with particles of a surrounding gas. With weak measurement it is possible to monitor
the dynamics of the wave function without knowing it initially. The continuous monitoring can
be employed to influence the dynamics by means of feedback. This thesis focuses on the numeric
simulation of the continuous monitoring of the position of a free massive particle as well as a particle
bound in the following one-dimensional potentials: harmonic and double well. The monitoring
scheme involves estimating the wave function of the hydrogen atom initially and then applying the
results of the weak measurement its position to update the estimate through a numerically simulated
stochastic evolution. We also simulate evolution of the true wave function. The key highlights of
this thesis include: discussion of an alternative way to derive the stochastic differential equations
that govern the evolution of the true and estimated wave functions of the system, as well as the
explanation of the second order numerical scheme. / Thesis (M.Sc.)-University of KwaZulu-Natal, Westville, 2012.
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Quantum measures, arithmetic coils, and generalized fractal stringsChildress, Scot Paul, January 2009 (has links)
Thesis (Ph. D.)--University of California, Riverside, 2009. / Includes abstract. Includes bibliographical references (leaves 202-204) and index. Issued in print and online. Available via ProQuest Digital Dissertations.
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