Theoretical investigation of the first-order hyperpolarizability in the two-photon resonant region / Teoretisk undersökning av andra ordningens susceptibilitet i det tvåfotonresonanta området

Bergstedt, Mikael

January 2007

<p>Time-dependent density functional theory calculations have been carried out to determine the complex first-order hyperpolarizability in the two-photon resonance region of the molecule IDS-Cab. Calculations show that three strongly absorbing states, in the ultraviolet region, are separated to the extent that no significant interference of the imaginary parts of the tensor elements of the first-order hyper-polarizability occurs. Consequently, and in contrast to experimental findings [27], no reduced imaginary parts of the first-order hyperpolarizability in the two-photon resonant region can be seen.</p>

two-photon absorption

first-order hyperpolarizability

responce theory

time-dependent density functional theory

Hartree-Fock approximation

Computational physics

Beräkningsfysik

Time-dependent Analysis of Jet-grouted Tunnels in Difficult Ground Conditions

Heidari Moghadam, Mahdi

03 March 2014

In this study, excavation of jet-grouted tunnels in ground with strong time-dependent behavior is analyzed. The constant growth of population has led to a constant increase in the price of lands and thus infrastructures. Underground alternatives are becoming more economical. Furthermore, advances in the construction technology have made it feasible to construct tunnels in difficult ground conditions. By providing a grouted arch ahead of the tunnel face, jet-grouting has proved effective for the stability and performance of tunnels in difficult conditions. Given the limited depth of jet-grouting into the face, the jet-grouted arch is loaded soon after installation, when the rigidity of the grouted material is growing significantly. The simultaneous loading and hardening of the jet-grouting makes the tunnel response depend on the excavation rate. Furthermore, in difficult tunneling conditions, the ground material is associated with highly viscous behavior. This behavior is synonymous with delayed deformation depending on the level and duration of the ground loading by the tunnel excavation. In order to show the importance of the time-dependent behaviors, the full-face and the sequential excavation method are compared using three-dimensional and two-dimensional finite element analyses. First, a three-dimensional model is constructed and its results are validated against available analytical solutions for time-independent behaviors. The hardening of the jet-grouting is then introduced into the model by embedding jet-grouting elements through the analysis. In order to account for the ground viscous behavior, an advanced viscoplastic constitutive model is adopted, numerically implemented in FORTRAN, and used in conjunction with finite element software ABAQUS. The excavation methods are compared for the well documented study case of Tartaiguille tunnel. The results indicate that the full-face method outperforms the sequential method in the studied case by installing the tunnel invert closer to the face. The two-dimensional analysis of the tunnel is conducted by using the convergence-confinement method. To this end, a new approach is introduced to use the method for tunnels in time-dependent conditions. The effect of the jet-grouting hardening and the ground viscous behavior is characterized within the new approach by deriving the ground convergence curves. The reverse dependency of these mechanisms on the tunnel advance rate leads to an optimum advance rate, at which minimum tunnel convergence develops. / text

Jet-grouting

Convergence-confinement method

3-D finite element analysis

Time-dependent behavior

Full-face tunnel excavation

ABAQUS

Creep buckling behavior of steel columns subjected to fire

Morovat, Mohammed Ali

09 March 2015

The essence of performance-based structural fire safety design of steel building structures is the ability to predict thermal and structural response to fire. An important aspect of such predictions is the ability to evaluate strength of columns at elevated temperatures. Columns are critical structural elements, and failure of columns can lead to collapse of a structure. The ability of steel columns to carry their design loads is greatly affected by timeand temperature-dependent mechanical properties of steel at high temperatures due to fire. It is well known that structural steel loses strength and stiffness with temperature, especially at temperatures above 400 °C. Further, the reductions in strength and stiffness of steel are also dependent on the duration of exposure to elevated temperatures. The time-dependent response or creep of steel plays a particularly important role in predicting the collapse load of steel columns subjected to fire temperatures. Specifically, creep of steel leads to the creep buckling phenomenon, where the critical buckling load for a steel column depends not only on slenderness and temperature, but also on duration of exposure to fire temperatures. The main focus of the research summarized in this dissertation is on a testing program to investigate the effects of time-dependent material behavior or creep on buckling of steel columns subjected to fire. Material characterization tests were conducted at temperatures up to 1000 °C to evaluate tensile and creep properties of ASTM A992 steel at elevated temperatures. In addition, buckling tests on W4×13 wide flange columns under pin-end conditions were conducted to characterize short-time and vii creep buckling phenomena at elevated temperatures. The column test results are further used to verify analytical and computational tools developed to model the time-dependent buckling of steel columns at elevated temperatures. Test results are also compared against code-based predictions such as those from Eurocode 3 and the AISC Specification. Results of the research study presented in this dissertation clearly indicate that thermal creep of steel has a very large effect on strength of steel columns at high temperatures due to fire. The effect of creep on column capacity at high temperatures can be predicted using analytical and computational approaches presented in this dissertation. / text

Steel columns

Thermal creep

Creep buckling

ASTM A992 steel

Elevated temperatures

Time-dependent behavior

Structural-fire engineering

Fire science

Primary Effects of X-ray and Photo-Absorption Induced Excitations in Biomolecules

Burmeister, Carl Friedrich

11 April 2013

No description available.

530

Physik (PPN621336750)

electron dynamics

time-dependent hartree-fock

molecular dynamics

surface hopping

photo-active yellow protein

excitation energy transfer

Investigating the role of the NO-cGMP pathway in an animal model of posttraumatic stress disorder (PTSD) / Tanya Bothma

Bothma, Tanya

January 2004

Posttraumatic stress disorder (PTSD) is a severe anxiety disorder characterised by hypothalamic-pituitary-adrenal (HPA)-axis abnormalities, hyperarousal, anxiety, flashbacks of trauma memories and avoidance. Increasing evidence is now accumulating that the disorder is also associated with shrinkage of the hippocampus and cognitive dysfunction that may have its origin in stress-induced excitotoxicity. Animal studies have indeed highlighted a potential role of the excitotoxic glutamatenitric oxide (NO) pathway in the stress response. Since PTSD appears to be an illness that progresses and worsens over time after an initial severe traumatic event, this study has used an animal model that emphasises repeated trauma to investigate the effect of stress on hippocampal NO synthase (NOS) activity, the release of the nitrogen oxide metabolites of NO (NOx), and also the evoked release of cGMP. Furthermore, the modulation and dependency of these responses on glutamate, NO and cGMP activity using drugs selective for these targets, will also be investigated. Rats (n=10/group) were exposed to repeated stress together with saline or drug administration immediately after the stress procedure and continuing for one week post-stress. The animals were then sacrificed for assay of hippocampal NOS activity, NO, and cGMP accumulation. Animals received either the glutamate-NMDA receptor antagonist, memantine (MEM;5mg/kg ip/d), the neuronal NOS selective inhibitor, 7- nitroindazole monosodium salt (7-NINA;20mg/kg ip/d), the cGMP-specific PDE inhibitor, sildenafil (SIL;10mg/kg ip/d) or the NFkb antagonist, pyrollidine dithiocarbamate (PDTC;70mg/kg ip/d). The latter inhibits the nuclear transcription factor, NFkb, responsible for inducing the expression of iNOS, while it also appears to mediate the glutamatergic actions on NOS expression, Stress significantly increased hippocampal NOS activity, as well as significantly increased hippocampal cGMP and NO, levels. These increases were blocked by pretreatment with either PDTC or 7-NINA, while memantine was without effect. Sildenafil significantly augmented stress induced NO, accumulation, as well as cGMP. although the latter failed to reach significance. 7-NINA and memantine significantly blocked the increase in cGMP evoked by time-dependent sensitisation (TDS)-stress, with PDTC attenuating this response, but not significantly. Additionally, administration of each drug separately for seven days without exposure to stress, did not evoke significant changes in NOx levels, compared to the control group. However, significant increases in cGMP levels, compared to the control group, were found with all four drugs. Repeated trauma therefore activates the NO-cGMP pathway, possibly involving actions on both nNOS and iNOS. The NMDA receptor appears less involved after chronic repeated stress, and may have limited therapeutic implications. Sub-cellular NO-modulation, however, may represent an important therapeutic strategy in preventing the effects of severe stress and in treating PTSD. / Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2005.

PTSD

Nitric oxide

Time-dependent sensitisation

Stress

7-Nitroindazole monosodium salt (7-NINA)

Memantine

PDTC

Sildenafil

Glutamate

Cyclic GMP (cGMP)

Investigating the role of the NO-cGMP pathway in an animal model of posttraumatic stress disorder (PTSD) / Tanya Bothma

Bothma, Tanya

January 2004

Posttraumatic stress disorder (PTSD) is a severe anxiety disorder characterised by hypothalamic-pituitary-adrenal (HPA)-axis abnormalities, hyperarousal, anxiety, flashbacks of trauma memories and avoidance. Increasing evidence is now accumulating that the disorder is also associated with shrinkage of the hippocampus and cognitive dysfunction that may have its origin in stress-induced excitotoxicity. Animal studies have indeed highlighted a potential role of the excitotoxic glutamatenitric oxide (NO) pathway in the stress response. Since PTSD appears to be an illness that progresses and worsens over time after an initial severe traumatic event, this study has used an animal model that emphasises repeated trauma to investigate the effect of stress on hippocampal NO synthase (NOS) activity, the release of the nitrogen oxide metabolites of NO (NOx), and also the evoked release of cGMP. Furthermore, the modulation and dependency of these responses on glutamate, NO and cGMP activity using drugs selective for these targets, will also be investigated. Rats (n=10/group) were exposed to repeated stress together with saline or drug administration immediately after the stress procedure and continuing for one week post-stress. The animals were then sacrificed for assay of hippocampal NOS activity, NO, and cGMP accumulation. Animals received either the glutamate-NMDA receptor antagonist, memantine (MEM;5mg/kg ip/d), the neuronal NOS selective inhibitor, 7- nitroindazole monosodium salt (7-NINA;20mg/kg ip/d), the cGMP-specific PDE inhibitor, sildenafil (SIL;10mg/kg ip/d) or the NFkb antagonist, pyrollidine dithiocarbamate (PDTC;70mg/kg ip/d). The latter inhibits the nuclear transcription factor, NFkb, responsible for inducing the expression of iNOS, while it also appears to mediate the glutamatergic actions on NOS expression, Stress significantly increased hippocampal NOS activity, as well as significantly increased hippocampal cGMP and NO, levels. These increases were blocked by pretreatment with either PDTC or 7-NINA, while memantine was without effect. Sildenafil significantly augmented stress induced NO, accumulation, as well as cGMP. although the latter failed to reach significance. 7-NINA and memantine significantly blocked the increase in cGMP evoked by time-dependent sensitisation (TDS)-stress, with PDTC attenuating this response, but not significantly. Additionally, administration of each drug separately for seven days without exposure to stress, did not evoke significant changes in NOx levels, compared to the control group. However, significant increases in cGMP levels, compared to the control group, were found with all four drugs. Repeated trauma therefore activates the NO-cGMP pathway, possibly involving actions on both nNOS and iNOS. The NMDA receptor appears less involved after chronic repeated stress, and may have limited therapeutic implications. Sub-cellular NO-modulation, however, may represent an important therapeutic strategy in preventing the effects of severe stress and in treating PTSD. / Thesis (M.Sc. (Pharmacology))--North-West University, Potchefstroom Campus, 2005.

PTSD

Nitric oxide

Time-dependent sensitisation

Stress

7-Nitroindazole monosodium salt (7-NINA)

Memantine

PDTC

Sildenafil

Glutamate

Cyclic GMP (cGMP)

Solvable Time-Dependent Models in Quantum Mechanics

January 2011

abstract: In the traditional setting of quantum mechanics, the Hamiltonian operator does not depend on time. While some Schrödinger equations with time-dependent Hamiltonians have been solved, explicitly solvable cases are typically scarce. This thesis is a collection of papers in which this first author along with Suslov, Suazo, and Lopez, has worked on solving a series of Schrödinger equations with a time-dependent quadratic Hamiltonian that has applications in problems of quantum electrodynamics, lasers, quantum devices such as quantum dots, and external varying fields. In particular the author discusses a new completely integrable case of the time-dependent Schrödinger equation in R^n with variable coefficients for a modified oscillator, which is dual with respect to the time inversion to a model of the quantum oscillator considered by Meiler, Cordero-Soto, and Suslov. A second pair of dual Hamiltonians is found in the momentum representation. Our examples show that in mathematical physics and quantum mechanics a change in the direction of time may require a total change of the system dynamics in order to return the system back to its original quantum state. The author also considers several models of the damped oscillators in nonrelativistic quantum mechanics in a framework of a general approach to the dynamics of the time-dependent Schrödinger equation with variable quadratic Hamiltonians. The Green functions are explicitly found in terms of elementary functions and the corresponding gauge transformations are discussed. The factorization technique is applied to the case of a shifted harmonic oscillator. The time-evolution of the expectation values of the energy related operators is determined for two models of the quantum damped oscillators under consideration. The classical equations of motion for the damped oscillations are derived for the corresponding expectation values of the position operator. Finally, the author constructs integrals of motion for several models of the quantum damped oscillators in a framework of a general approach to the time-dependent Schrödinger equation with variable quadratic Hamiltonians. An extension of the Lewis-Riesenfeld dynamical invariant is given. The time-evolution of the expectation values of the energy related positive operators is determined for the oscillators under consideration. A proof of uniqueness of the corresponding Cauchy initial value problem is discussed as an application. / Dissertation/Thesis / Ph.D. Applied Mathematics for the Life and Social Sciences 2011

Applied Mathematics

Quantum physics

Damped Oscillators

Green's Function

Quadratic Hamiltonian

Schrödinger Equation

Time-Dependent Hamiltonian

Time-Reversal

Ab initio simulation of optical properties of noble-metal clusters / Modélisation des propriétés optiques de nanoparticules métalliques

Sinha Roy, Rajarshi

19 January 2018

L'intérêt de la recherche fondamentale pour les morceaux nanométriques de métaux nobles est principalement dû à la résonance localisée des plasmons de surface (LSPR) dans l'absorption optique. Différents aspects, liés à la compréhension théorique de la LSPR dans le cas de clusters de métaux nobles de taille dite intermédiaire, sont étudiés dans ce manuscrit. Afin d'avoir une vision plus large nous utilisons deux approches : l'approche électromagnétique classique et le formalisme ab initio en temps réel de la théorie de la fonctionnelle de la densité dépendant du temps (RT-TDDFT). Une comparaison systématique et détaillée de ces deux approches souligne et quantifie les limitations de l'approche électromagnétique lorsqu'elle est appliquée à des systèmes de taille quantique. Les différences entre les excitations plasmoniques collectives et celles impliquant les électrons d, ainsi que leurs interactions, sont étudiées grâce au comportement spatial des densités correspondantes. Ces densités sont obtenues en appliquant une transformée de Fourier dans l'espace à la densité obtenue par les simulations DFT utilisant une perturbation delta-kick. Dans ce manuscrit, des clusters de métaux nobles nus et protégés par des ligands sont étudiés. En particulier, motivé par de récents travaux sur les phénomènes d'émergence de plasmon, l'étude par TD-DFT de nano-alliages Au-Cu de taille tout juste inférieure à 2nm à fourni de subtiles connaissances sur les effets d'alliages sur la réponse optique de tels systèmes. / The fundamental research interest in nanometric pieces of noble metals is mainly due to the localized surface-plasmon resonance (LSPR) in the optical absorption. Different aspects related to the theoretical understanding of LSPRs in `intermediate-size' noble-metal clusters are studied in this thesis. To gain a broader perspective both the real-time \ai formalism of \td density-functional theory (RT-TDDFT) and the classical electromagnetics approach are employed. A systematic and detailed comparison of these two approaches highlights and quantifies the limitations of the electromagnetics approach when applied to quantum-sized systems. The differences between collective plasmonic excitations and the excitations involving $d$-electrons, as well as the interplay between them are explored in the spatial behaviour of the corresponding induced densities by performing the spatially resolved Fourier transform of the time-dependent induced density obtained from a RT-TDDFT simulation using a $\delta$-kick perturbation. In this thesis, both bare and ligand-protected noble-metal clusters were studied. In particular, motivated by recent experiments on plasmon emergence phenomena, the TDDFT study of Au-Cu nanoalloys in the size range just below 2~nm produced subtle insights into the general effects of alloying on the optical response of these systems.

.

Localized plasmon resonance

D-Electron excitations

Ab initio methods

Classical optics

Nanorod

Atomic chain

530

Implémentation et applications d'algorithmes fondés sur la théorie de la fonctionnelle de la densité dépendante du temps dans les logiciels à la base des fonctions gaussiennes et ondelettes / Implementation, Testing, and Application of Time-Dependent Density-Functional Theory Algorithms for Gaussian- and Wavelet-based Programs

Natarajan, Bhaarathi

19 January 2012

L'interaction entre la matière et le rayonnement est un domaine bien établi de la physique. Pour un physico-chimiste, cette interaction peut être utilisée comme une sonde (spectroscopie) ou pour provoquer des réactions chimiques (photo-chimie). Les mécanismes des réactions photochimiques sont difficiles à étudier expérimentalement et même les études les plus sophistiquées de spectroscopies femtosecondes peuvent bénéficier énormément des simulations théoriques.Les résultats spectroscopiques d'ailleurs ont souvent besoin des calculs théoriques pour l'analyse de leurs spectres. Les méthodes théoriques pour décrire les processus photochimiques ont été principalement développées en utilisant le concept de la fonction d'onde à N corps et ont eu des succès remarquables. Cependant de telles approches sont généralement limitées à des petites ou moyennes molécules. Heureusement la théorie de la fonctionnelle de la densité dépendant du temps (TD-DFT) a émergé comme une méthode simple de calcul pouvant être appliquée à des molécules plus grandes, avec une précision qui est souvent, mais pas toujours, semblable à la précision provenant des méthodes basés sur la fonction d'onde à N électrons. Une partie de cette thèse consiste à surmonter les difficultés des approximations utilisées de nos jours en TD-DFT. En particulier, nous avons examiné la qualité des intersections coniques quand l'approche du retournement de spin non collinéaire de Ziegler-Wang est utilisée et nous avons montré que l'approche du retournement de spin, parfois ,améliore dans des cas particuliers, mais que c'est n'est pas une solution générale pour mieux décrire les intersections coniques dans les simulations photochimiques basées sur la TD-DFT. La plupart des parties de cette thèse traite d'améliorations algorithmiques, soit pour améliorer l'analyse des résultats de la TD-DFT, soit pour étendre les calculs de TD-DFT à de grandes molécules. L'implémentation de l'analyse automatique des symétries des orbitales moléculaires dans deMon2k est une contribution pour améliorer l'analyse des résultats de la TD-DFT. Cela a aussi servi comme une introduction au projet de programmation majeur. La contribution méthodologique principale dans cette thèse est l'implémentation des équations de Casida dans le code BigDFT fondé sur le formalisme des ondelettes. Cette implémentation a aussi permis une analyse détaillée des arguments positifs et négatifs de l'utilisation de la TD-DFT fondée sur les ondelettes. On montre qu'il est plus facile d'obtenir des orbitales moléculaires précises qu'avec deMon2k. Par contre, la contribution des orbitales inoccupées est plus problématiques qu'avec un code de gaussienne comme deMon2k. Finalement, les équations de base des gradients analytiques des états excités sont dérivées pour la TD-DFT. La thèse se termine avec quelques perspectives de travaux futurs. / The interaction of light with matter is a well-established domain of physical science. For a chemical physicist, this interaction may be used as a probe (spectroscopy) or to induce chemical reactions (photo- chemistry.) Photochemical reaction mechanisms are difficult to study experimentally and even the most sophisticated modern femtosecond spectroscopic studies can benefit enormously from the light of theoret- ical simulations. Spectroscopic assignments often also require theoreti- cal calculations. Theoretical methods for describing photoprocesses have been developed based upon wave-function theory and show remarkable success when going to sophisticated higher-order approxi- mations. However such approaches are typically limited to small or at best medium-sized molecules. Fortunately time-dependent density- functional theory (TD-DFT) has emerged as a computationally-simpler method which can be applied to larger molecules with an accuracy which is often, but not always, similar to high-quality wave-function calculations. Part of this thesis concerns overcoming difficulties in- volving the approximate functionals used in present-day TD-DFT. In particular, we have examined the quality of conical intersections when the Ziegler-Wang noncollinear spin-flip approach is used and have shown that the spin-flip approach has merit as a particular solution in particular cases but is not a general solution to improving the de- scription of conical intersections in photochemical simulations based upon TD-DFT. Most of this thesis concerns algorithmic improvements aimed at either improving the analysis of TD-DFT results or extending practical TD-DFT calculations to larger molecules. The implementa- tion of automatic molecular orbital symmetry analysis in deMon2k is one contribution to improving the analysis of TD-DFT results. It also served as an introduction to a major programming project. The major methodological contribution in this thesis is the implementation of Casida's equations in the wavelet-based code BigDFT and the subse- quent analysis of the pros and cons of wavelet-based TD-DFT where it is shown that accurate molecular orbitals are more easily obtained in BigDFT than with deMon2k but that handling the contribution of unoccupied orbitals in wavelet-based TD-DFT is potentially more problematic than it is in a gaussian-based TD-DFT code such as de- Mon2k. Finally the basic equations for TD-DFT excited state gradients are derived. The thesis concludes with some perspectives about future work.

Ondelettes

Gaussiennes

Density Functional Theory

Time-Dependent Density Functional Theory

Gaussian functions

Wavelets

Modelos de riscos aditivo-multiplicativos em análise de sobrevivência / Additive-multiplicative hazard models in survival analysis

Tamy Harumy Moraes Tsujimoto

30 April 2015

Este trabalho visa estudar o modelo de Cox-Aalen, que incorpora efeitos fixos e variantes no tempo por meio das estruturas aditiva e multiplicativa. Os principais modelos aditivos e multiplicativos que englobam efeitos fixos e variantes no tempo são revisados com enfoque de processos de contagem e um teste do tipo escore para auxiliar na escolha entre a estrutura aditiva e multiplicativa é proposto e avaliado por meio de estudos de simulação. Aplicação e comparação dos principais modelos discutidos em dados do Instituto do Câncer do Estado de São Paulo (ICESP) sugerem que o modelo estudado pode ser uma opção interessante na análise de dados de sobrevivência em que as ferramentas usuais não são adequadas. / This dissertation aims to study the Cox-Aalen regression model, which incorporates fixed and time-varying effects through the additive and multiplicative structures. The primary additive and multiplicative risk models that deal with fixed and time-dependent effects are reviewed with the counting process framework and a score test to assist the decision between the additive and multiplicative structures is proposed and evaluated with a simulation study. The application of the models to the Instituto do Câncer do Estado de São Paulo (ICESP) dataset suggests that the model under study can be considered as an interesting option to analyse survival data when the usual techniques are not aproppriate.

Aranda-Ordaz

Cox-Aalen

Efeito dependente do tempo

Teste escore

Aranda-Ordaz

Cox-Aalen

Score test

Time-dependent effect