Die Motetten des Philippe de Monte (1521 - 1603)

Silies, Michael

January 2006

Zugl.: Göttingen, Univ., Diss., 2006

Monte, Philippe {de Motette

Modeling and simulation of the response of scintillation screens for X-ray imaging

Pistrui-Maximean, Simona Anca Babot, Daniel. Freud, Nicolas

January 2008

Thèse doctorat : Images et Systèmes : Villeurbanne, INSA : 2007. / Thèse rédigée en anglais. Titre provenant de l'écran-titre. Bibliogr. p. 81-93.

Scintillateurs Méthode de Monte-Carlo

Contribution à l'évaluation de la sûreté de fonctionnement des Systèmes Instrumentés de Sécurité à Intelligence Distribuée

Mkhida, Abdelhak Aubry, Jean-François Thiriet, Jean-Marc

January 2008

Thèse de doctorat : Automatique et traitement du signal : INPL : 2008. / Titre provenant de l'écran-titre.

Monte-Carlo, Méthode de Industrie

Monte Carlo studies of liquid structure /

Veld, Pieter Jacob in 't,

January 2000

Thesis (Ph. D.)--University of Texas at Austin, 2000. / Vita. Includes bibliographical references (leaves 92-97). Available also in a digital version from Dissertation Abstracts.

Monte Carlo method. Liquids.

Molecular clusters on surfaces: a Monte Carlostudy

黃柄榕, Wong, Ping-yung.

January 1999

published_or_final_version / Physics / Master / Master of Philosophy

Microclusters.

Monte Carlo method.

Implementations and applications of Renyi entanglement in Monte Carlo simulations of spin models

Inglis, Stephen

January 2013

Although entanglement is a well studied property in the context of quantum systems, the ability to measure it in Monte Carlo methods is relatively new. Through measures of the Renyi entanglement entropy and mutual information one is able to examine and characterize criticality, pinpoint phase transitions, and probe universality. We describe the most basic algorithms for calculating these quantities in straightforward Monte Carlo methods and state of the art techniques used in high performance computing. This description emphasizes the core principal of these measurements and allows one to both build an intuition for these quantities and how they are useful in numerical studies. Using the Renyi entanglement entropy we demonstrate the ability to detect thermal phase transitions in the Ising model and XY model without use of an order parameter. The scaling near the critical point also shows signatures identifying the universality class of the model. Improved methods are explored using extended ensemble techniques that can increase calculation efficiency, and show good agreement with the standard approach. We explore the "ratio trick" at finite temperature and use it to explore the quantum critical fan of the one dimensional transverse field Ising model, showing agreement with finite temperature and finite size scaling from field theory. This same technique is used at zero temperature to explore the geometric dependence of the entanglement entropy and examine the universal scaling functions in the two dimensional transverse field Ising model. All of this shows the multitude of ways in which the study of the Renyi entanglement entropy can be efficiently and practically used in conventional and exotic condensed matter systems, and should serve as a reference for those wishing to use it as a tool.

monte carlo

entropy

Physics

Efficiency calibration of germanium detectors incorporating corrections for self-absorption, geometrical variations and true coincidence summing

Saat, Ahmad

January 1999

No description available.

510

Monte Carlo simulation

Nonlinear error-correction models with regime switching

Spagnolo, Fabio

January 2001

No description available.

330

Markov; Monte Carlo

In-vivo radiotherapy dosimetry

Edwards, Craig Richard

January 2002

No description available.

612

Monte Carlo code

Practical issues in modern Monte Carlo integration

Lefebvre, Geneviève, 1978-

January 2007

Computing marginal likelihoods to perform Bayesian model selection is a challenging task, particularly when the models considered involve a large number of parameters. In this thesis, we propose the use of an adaptive quadrature algorithm to automate the selection of the grid in path sampling, an integration technique recognized as one of the most powerful Monte Carlo integration statistical methods for marginal likelihood estimation. We begin by examining the impact of two tuning parameters of path sampling, the choice of the importance density and the specification of the grid, which are both shown to be potentially very influential. We then present, in detail, the Grid Selection by Adaptive Quadrature (GSAQ) algorithm for selecting the grid. We perform a comparison between the GSAQ and standard grid implementation of path sampling using two well-studied data sets; the GSAQ approach is found to yield superior results. GSAQ is then successfully applied to a longitudinal hierarchical regression model selection problem in Multiple Sclerosis research. / Using an identity arising in path sampling, we then derive general expressions for the Kullback-Leibler (KL) and Jeffrey (J) divergences between two distributions with common support but from possibly different parametric families. These expressions naturally stem from path sampling when the popular geometric path is used to link the extreme densities. Expressions for the KL and J-divergences are also given for any two intermediate densities lying on the path. Estimates for the KL divergence (up to a constant) and for the J-divergence, between a posterior distribution and a selected importance density, can be obtained directly, prior to path sampling implementation. The J-divergence is shown to be helpful for choosing importance densities that minimize the error of the path sampling estimates. / Finally we present the results of a simulation study devised to investigate whether improvement in performance can be achieved by using the KL and J-divergences to select sequences of distributions in parallel (population-based) simulations, such as in the Sequential Monte Carlo Sampling and the Annealed Importance Sampling algorithms. We compare these choices of sequences to more conventional choices in the context of a mixture example. Unexpected results are obtained, and those for the KL and J-divergences are mixed. More fundamentally, we uncover the need to select the sequence of tempered distributions in accordance with the resampling scheme.

Monte Carlo method.