The Legacy of the Filibuster War: National Identity, Collective Memory, and Cultural Anti-Imperialism

January 2013

abstract: The Legacy of the Filibuster War: National Identity, Collective Memory, and Cultural Anti-Imperialism is a dissertation project analyzing how the Filibuster War becomes a staple for Costa Rican national identity. This work presents several challenges to traditional theories of modernization in the creation of nationalism. By focusing on the development of cultural features defined by the transformation of collective memory, this project argues that national identity is a dynamic process defined according to local, national, and international contexts. Modernization theories connect the development of nationalism to the period of consolidation of the nation-state, usually during the late nineteenth century and early twentieth century. The Costa Rican case demonstrates that, while modernization coincides with the creation of symbols of official nationalism, the Filibuster War became a symbol of national identity beginning in the 1850s, and it has been changing throughout the twentieth century. Threats to sovereignty and imperialist advances served to promote the memory of the Filibuster War, while local social transformations, as the abolition of the army and internal political conflict forced drastic changes on the interpretation of the war and the establishment of a national narrative that adjusts to social transformation. / Dissertation/Thesis / Ph.D. History 2013

History

Latin American history

Latin American studies

Central American history

Cultural History

Filibuster

Juan Santamaria

National Identity

William Walker

Computing the Kinetic Energy from Electron Distribution Functions

Chakraborty, Debajit

04 1900

<p><strong>ABSTRACT </strong> Approximating the kinetic energy as a functional of the electron density is a daunting, but important, task. For molecules in equilibrium geometries, the kinetic energy is equal in magnitude to the total electronic energy, so achieving the exquisite accuracy in the total energy that is needed for chemical applications requires similar accuracy for the kinetic energy functional. For this reason, most density functional theory (DFT) calculations use the Kohn-Sham method, which provides a good estimate for the kinetic energy. But the computational cost of Kohn-Sham DFT calculations has a direct dependence on the total number of electrons because the Kohn-Sham method is based on the orbital picture, with one orbital per electron. Explicit density functionals, where the kinetic energy is written explicitly in terms of the density, and not in terms of orbitals, are much faster to compute. Unfortunately, the explicit density functionals in the literature had disappointing accuracy. This dissertation introduces several new approaches for orbital-free density functional methods. One can try to include information about the Pauli principle using the exchange hole. In the weighted density approximation (WDA), a model for the exchange hole is used to approximate the one-electron density matrix, which is then used to compute the kinetic energy. This thesis introduces a symmetric, normalized, weighted density approximation using the exchange hole of the uniform electron gas. Though the key results on kinetic energy are not accurate enough, an efficient algorithm is introduced which, with a more sophisticated hole model, might give better results. The effects of electron correlation on the kinetic energy can be modeled by moving beyond the one-electron distribution function (the electron density) to higherorder electron distributions (k-electron DFT). For example, one can model electron correlation directly using the pair electron density. In this thesis, we investigated two different functionals of the pair density, the Weizsäcker functional and the March-Santamaria functional. The Weizsäcker functional badly fails to describe the accurate kinetic energy due to the N-representability problem. The March-Santamaria functional is exact for a single Slater determinant, but fails to adequately model the effects of electron correlation on the kinetic energy. Finally, we established a relation between Fisher information and Weizsäcker kinetic energy functional. This allowed us to propose generalisations of the Weizsäcker kinetic energy density functional. It is hoped that the link between information theory and kinetic energy might provide a new approach to deriving improved kinetic energy functionals. <strong> Keywords: </strong><em>Kinetic energy functional, Density functional theory (DFT), von-Weizsäcker</em> <em> functional, March-Santamaria functional, Thomas-Fermi model, density matrix, Twopoint normalization, Pair-density functional theory (PDFT). </em></p> / Doctor of Science (PhD)

Kinetic energy functional

Density functional theory (DFT)

von-Weizsacker functional

March-Santamaria functional

Pair density functional theory (PDFT)

Physical Chemistry

Physical Chemistry

My MFA Experience

Cuevas Santamaría, Sergio Axel

27 August 2018

No description available.

Art Education

Art Criticism

Art History

Biology

Computer Science

Dance

Environmental Studies

Fine Arts

Music

Plant Biology

Pollen

Spirituality

thesis

MFA

bioart

biology

installation

immersive

domes

geodesic

dome

fulldome

slime mold

Max MSP

sound

art and tech

Hopkins

axel

Cuevas

Santamaria

projections

video

projection mapping

living systems

virtual

vr

interactivity

plant