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New Perspectives on the Aharonov-Bohm Effect
Full text linkThe Aharonov-Bohm effect is a quantum mechanical effect, that is, has no classical counterpart. The effect was predicted in 1959 in a seminal paper of Y. Aharonov and D. Bohm [AB59] in which they demonstrated that a beam of electrons is affected by the existence of the electric/magnetic field even though electrons travel through field-free regions. Aharonov and Bohm carried out two hypothetical experiments to support their claim that potentials are more fundamental than fields and they are responsible of the effect. Since then, the debate has arisen around whether potentials are mathematical tools or fundamental entities in physics. Different arguments have been set to explain the results predicted by Aharonov and Bohm and experimentally confirmed. Amongst these arguments, the first argument adopted by Aharonov and Bohm was that potentials are physically significant. Many have claimed that fields do have non-local features, i.e. action at a distance. Others have claimed that topological effects
may interpret the effect in which potentials are modeled as connections in higher-dimensional fiber bundle geometries. The most recent argument has been proposed by Vaidman [Vai12] who claimed that the the composite system is represented by one state, an entangled state, and due to the electromagnetic interactions part of this state is changed, hence, the total state. In the present essay, I will discuss the latter argument as well as reviewing some other arguments
Locality, Lorentz invariance and the Bohm model
Full text linkNon-local forces exist in nature for two reasons. First that the recent experiments on locality are supposed to be accurate enough. Second that there is no local theory that can reproduce all the predictions of orthodox quantum theory which, almost for about a century, have been proved to be correct experimentally again and again. This thesis concerns both of these. A brief discussion of the measurement in quantum theory is followed by two comments which show that the quantum description is frame dependent and that the collapse of the wave-function of a system may occur without the relevant measurement being performed. After this the Bohm model and a modified version of the Bohm model are described. Next we introduce a new method for obtaining the Bell-type inequalities which can be used for testing locality. We derive more inequalities by this method than obtained by other existing procedures. Using Projection Valued(PV) and Positive Operator Valued Measures(POVM) measurements we have designed experiments which violates one of the Bell inequalities by a larger factor than existing violations which in turn could increase the accuracy of experiments to test for non-locality. This is our first result. After discussing the non-locality and non-Lorentz invariant features of the Bohm model, its retarded version, namely Squires' model - which is local and Lorentz invariant - is introduced. A problem with this model, that is the ambiguity in the cases where the wave-function depends on time, is removed by using the multiple-time wave-function. Finally, we apply the model to one of the experiments of locality and prove that it is in good agreement with the orthodox quantum theory
Why the De Broglie-Bohm Theory Goes Astray
Full text linkWe show that the de Broglie-Bohm theory is inconsistent with the established parts of quantum mechanics concerning its physical content. According to the de Broglie-Bohm theory, the mass and charge of an electron are localized in a position where its Bohmian particle is. However, protective measurement implies that they are not localized in one position but distributed throughout space, and the mass and charge density of the electron in each position is proportional to the modulus square of its wave function there
Solving the measurement problem: de Broglie-Bohm loses out to Everett
Full text linkThe quantum theory of de Broglie and Bohm solves the measurement problem, but the hypothetical corpuscles play no role in the argument. The solution finds a more natural home in the Everett interpretation
Tracce - David Bohm
No full textQuotes from David Bohm, 1980. Wholeness and the Implicate Order, Routledge, New York, p.9 and from David Bohm at the Niels Bohr Institute in Copenhagen, 1989, Excerpt from interview by Tor Norretranders, min. 2 and 17-20Citazioni da David Bohm, 1980. Wholeness and the Implicate Order, Routledge, New York, p.9 e da David Bohm all’Istituto Niels Bohr di Copenhagen, 1989, Estratto dall’intervista di Tor Norretranders, min. 2 e 17-2
[Stammbuch Luise Bohm]
No full text[STAMMBUCH LUISE BOHM]
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Die erleichterte Last des Priester-Ambts : Wolten bey dem erfreulichen Hochzeit-Festin Des ... Herrn M. Johann Dietrich Bohms ... Und Der ... Jungfer Margretha Agneta, Des ... Daniel Hoyers ... Tochter ...
No full textDerer Verlobten Auff der Universität Jena studirende Brüder Friedrich Samuel Bohm, Martin Friedrich HoyerFestschrift Johann Dietrich Bohm u. Margretha Agneta, geb. Hoyer zur ihrer Vermählung am 25. Mai 1717 in Durlach bei Karlsruh
Is the electron's charge 2e? A problem of the de Broglie-Bohm theory
Full text linkIt is shown that the de Broglie-Bohm theory has a potential problem concerning the charge distribution of a quantum system such as an electron. According to the guidance equation of the theory, the electron's charge is localized in a position where its Bohmian particle is. But according to the Schrödinger equation of the theory, the electron's charge is not localized in one position but distributed throughout space, and the charge density in each position is proportional to the modulus square of the wave function of the electron there. Although this tension may be resolved by assuming that the electron's charge is not e but 2e, one for its Bohmian particle and the other for its wave function, the resolution will introduce more serious problems
Protective measurements and the meaning of the wave function in the de Broglie-Bohm theory
Full text linkThere are three possible interpretations of the wave function in the de Broglie-Bohm theory: taking the wave function as corresponding to a physical entity or a property of the Bohmian particles or a law. In this paper, we argue that the first interpretation is favored by an analysis of protective measurements
CAM5 Processed Data for 2017-2019 and 2098-2100
No full textThe data here is the 0.25°, free-running version of Community Atmosphere Model version 5 (CAM5) used in Etten-Bohm et al. (2025). Three-hourly temperature, LCL, specific humidity, dilute CAPE, convective precipitation, and total precipitation fields were interpolated to a 0.5° grid. Undilute CAPE and r were computed from the temperature and specific humidity profiles
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