The dressing transformation and its application to a fermion-boson trilinear interaction

Hearn, Deborah Jean

January 1981

In this thesis, various fermion-boson strong interaction potentials are determined as functions of the basic fermion-boson trilinear vertex function. Working in Fock space, we note that the fermion-boson trilinear interaction does not explicitly involve physical particles. We develop a transformation, called the dressing transformation, which acts on the fundamental particle creators and annihilators. They are transformed into physical particle operators, and the invariance properties and commutation relations of the theory are preserved. A precise technique for perturbatively determining the dressing transformation is formulated, and is applied to some simple models in field theory. The dressing transformation makes explicit the physical particle interactions implicit in the original trilinear interaction. When applied to the nucleon-pion trilinear interaction, we find a nucleon mass renormalization, a nucleon-pion scattering term, and a nucleon-nucleon scattering term present in the second-order dressed Hamiltonian. Using the NN7C vertex function derived from the Cloudy Bag Model, the nucleon-nucleon coordinate space potential can be calculated. We discover that providing the two nucleons are separated by a distance greater than twice the bag radius, the potential between them is given by the one pion exchange potential modified in strength by a function of the bag radius. / Science, Faculty of / Physics and Astronomy, Department of / Graduate

Nuclear reactions

Fermions

Bosons

Mercury-Sensitized Photochemical Reactions of Isopropyl Alcohol

Brown, Robert Wade

08 1900

This thesis discusses the mercury-sensitized photochemical reactions of isopropyl alcohol.

photochemical reactions

isopropyl alcohol

Halogen Atom Transfer Reactions Via Metalloradical Catalysis

Lounsbury, Katherine Edline

January 2018

Thesis advisor: X. Peter Zhang / Halogenated compounds are useful synthetic organic molecules. One valuable tool for synthesizing halogen containing molecules are atom transfer radical addition (ATRA) reactions which can difunctionalize olefins with a halogen moiety. Many transition complexes can catalyze these reactions but have drawbacks such as the need for harsh conditions and additives. Herein we describe the first ATRA reaction catalyzed by cobalt metalloradical catalysis (Co-MRC) which shows a broad substrate scope, moderate temperatures and uses no additives. This reaction showed excellent regioselectivity, when applicable, and low levels of enantioselectivity (up to 33% ee). / Thesis (MS) — Boston College, 2018. / Submitted to: Boston College. Graduate School of Arts and Sciences. / Discipline: Chemistry.

ATRA reactions

Halogen

Catalysis

⁷Li(d,p)⁸Li excitation function :|bE[subscript d] = 0.623 MeV to 1.968 MeV

Schilling, Albert E.

01 April 1973

In this study the excitation function for the ^7Li(d,p)^8Li reaction is determined at incident deuteron energies ranging from 0.623MeV to 1.968MeV by counting the delayed alpha-particles as a result of the ^8Li beta decay. This excitation function reveals resonances at 0.777±0.012MeV and 1.031±0.015MeV with cross sections of 202±9mb and 188±8mb respectively. The uncertainty in the cross section values was due to three independent sources of error within this experiment, the solid angle, the ^8Li half-life, and the target (LiF) thickness. The uncertainty in the energy values was determined from an energy calibration of the accelerator used in this study. Resonances from the ^71i(p,n)^7Be (1.882MeV), 7Li(d,p)^8Li (0.770MeV; 1.02MeV) and ^19F(p,αγ)^16 0 reactions were used in this energy calibration.

Nuclear reactions

Chemistry

Three-dimensional shock wave reflection transition in steady flow

Surujhlal, Divek

January 2018

A thesis submitted in fulfillment of the requirements for the degree of Doctor of Philosophy to the Faculty of Engineering and the Built Environment, University of the Witwatersrand, Johannesburg, Johannesburg, August 2018 / This work details findings of an analytical, numerical and experimental investigation into the physical nature of three-dimensional shock reflection transition. Steady flow shock reflections comprise two types: regular reflection and Mach reflection. Reflection studies have previously been conducted using double-wedge symmetrical test piece configurations. It had been found by previous researchers that the expansion waves resulting from the side edges of the wedges would influence the reflection plane. The three-dimensional nature of real experimental flows gives rise to there generally being a coexistence of regular reflection (at the central portions) and Mach reflection (towards the outer peripheral portions) in between which transition occurs. It is the object of this work to understand three-dimensional transition for flow fields in which edge effects do not influence the reflection plane. Specially modified test piece geometry was developed for this purpose. Experimental tests were required for validation of the numerical models of the flow field. This was achieved by obtaining oblique shadowgraphs with optical orientation in both yaw and roll to assist in visualising the three-dimensional features of the flow field. These were compared with numerically reconstructed images at the same oblique orientations using a novel reconstruction technique. The main objective of this work was to identify the degree of correspondence of the threedimensional transition conditions to those of two-dimensional flows. This was facilitated by means of reducing the three-dimensional analysis to an effective two-dimensional one. It was found that the three-dimensional transition points occur at a higher effective angle than predicted by twodimensional criteria, and tend towards two-dimensional criteria at reduced free-stream Mach numbers and increased model geometrical spreads. Another important aspect of this work was the nature of the intersection line in the vicinity of the transition point, i.e., the point of impingement of the incident wave and its Mach surface on the horizontal symmetry plane in between the test pieces. Here it was found that a cusp exists in the sweep profile of the intersection line at the transition point. This was proved from a theoretical standpoint based on a model developed for the analysis of the flow in the vicinity of transition. Evidence of this from the numerical and experimental results is given as well. Higher geometrical spreads and lower free-stream Mach numbers were found to create flatter intersection line profiles at the horizontal symmetry plane on which the transition points were located further forward towards the apex of this line and which gave rise to greater transverse deflections for the streamlines passing through the regular reflection portions. Further discussion revolves around the nature of the shear and Mach surfaces. The Mach surface heights (representative of the triple line trajectories) are shown to increase monotonically. The shear layer edge trajectory, which originates at the sweep cusp, was found to show considerable transverse divergence but in keeping with the nature and extent of the transition cusp sweep differential, which in some cases was found to be large enough to cause a strong shock solution for the Mach reflection portion. In this case the shear surface edge trajectory diverted from trends seen for other models. The nature of the shear surface as a whole revealed interesting insights into the negative triple configuration of the Mach reflection portions which comprised of convex Mach surfaces. This is in contrast to the geometry obtained for the Mach surface for full Mach reflection numerically studied with a highly-spread geometry. Here, the flat Mach surface was found to increase monotonically towards the periphery in contrast to what was found for flows with edge influences on the Mach surface. It is suggested that this is what precludes complex reflection (central Mach reflection, transitioning to regular reflection further out, with a further transition to Mach reflection at the periphery) from being obtained in such flow fields / MT 2019

Shock waves

Chemical reactions

Single cell studies of cross-reactive antibodies to closely related haptens

Brahmi, Zacharie

January 1970

This document only includes an excerpt of the corresponding thesis or dissertation. To request a digital scan of the full text, please contact the Ruth Lilly Medical Library's Interlibrary Loan Department (rlmlill@iu.edu).

Haptens

Cross Reactions

Antibodies

Syntheses and reactions of imidazo [1,2-a] pyridines.

Valentin, Kazimir.

January 1966

No description available.

Imidazoles.

Chemical reactions.

Pyridine.

Study of HCN elimination from some polycyano compounds.

Abdel-Rehiem, Ahmed Gamal

January 1973

No description available.

Hydrocyanic acid

Chemical reactions

Reactions of substituted quinones.

Vinokur, John.

January 1971

No description available.

Substitution reactions

Quinone

Nuclear charge distribution in the region of symmetric fission of 238U by protons of energy 20-85 MeV

Sarkar, Samir.

January 1974

No description available.

Nuclear fission.

Nuclear reactions.