Commutative And Non-commutative Integrable Equations: Lax Pairs, Recursion Operators

Unal, Gonul

01 July 2011

In this thesis, we investigate the integrability properties of some evolutionary type nonlinear equations in (1+1)-dimensions both with commutative and non-commutative variables. We construct the recursion operators, based on the Lax representation, for such equations. Finally, we question the notion of integrability for a certain one-component non-commutative equation. [We stress that calculations in this thesis are not original.]

QC Physics 1-999

The Adsorption And Dissociation Of Ash3 And B2h6 Molecules On Stepped Ge(100) Surface

Turkmenoglu, Mustafa

01 July 2011

In this work, the doping processes of the SA type stepped Ge (100) surface by arsine (AsH3) and diborane (B2H6) gas flow have been simulated seperately by the possible adsorption and dissociation models. The most stable adsorption and dissociation models of AsH3 and B2H6 on stepped Ge(100) surface have been determined by the local minimum total energy and/or binding energy calculations based on Hartree-Fock Theory. The present calculations have shown that, the step region (both up and down terraces) of the stepped Ge (100) surface has the most attractive sites for the initial adsorption stages of the gas molecules. It has been found that the thermodynamically preferred structures in the dissociation paths of arsine and diborane are the same / AsH3 , BH3 (fragment of diborane), AsH2 and BH2 products prefer to be bounded to a single surface Ge atom, but AsH and BH prefer to be bridged between two adjacent surface Ge atoms. It has been also found that, at the first step of the adsorptions, AsH3 can only dissociate to AsH2, but BH3 can dissociate to both BH2 and BH. This remarkable result has showed that dissociation of BH3 on Ge(100) surface can be easier than AsH3&rsquo / s. According to the optimization calculations, the dissociation path has started with the adsorption of AsH3 (or BH3) on the electron deficient side (buckled down) of the Ge dimer bond and ended with the occupation of the empty Ge sites in the surface layers by As (or B) atom substitutionally. In the present work, the beginning of the n &ndash / (or p-) type doping of the stepped Ge(100) surface has been illustrated by the As (or B) electronic states obtained in the optical energy gap of Ge very close to HOMO (or LUMO) energy edge.

QC Physics 1-999

Study Of Beam-halo Events In Photon Production In The Cms Experiment

Yildirim, Eda

01 September 2011

The Compact Muon Solenoid (CMS) Experiment operates at the Large Hadron Collider (LHC) which is the highest energy particle accelerator in the world. CMS is a general purpose detector designed to investigate a wide range of physics, including the search for the Higgs boson. The measurement of photon production in the CMS experiment is crucial since it represents an irreducible background for many new physics searches, such as decay of Higgs to two photon, supersymmetry and extra-dimensions. The study of beam halo contamination is important for the correct measurement of photon production. This thesis presents a way to identify and remove this contamination by using the timing and the shower shape of the photons.

QC Physics 1-999

CERN CMS photon beam-halo 2010 data

Massive Higher Derivative Gravity Theories

Gullu, Ibrahim

01 December 2011

In this thesis massive higher derivative gravity theories are analyzed in some detail. One-particle scattering amplitude between two covariantly conserved sources mediated by a graviton exchange is found at tree-level in D dimensional (Anti)-de Sitter and flat spacetimes for the most general quadratic curvature theory augmented with the Pauli-Fierz mass term. From the amplitude expression, the Newtonian potential energies are calculated for various cases. Also, from this amplitude and the propagator structure, a three dimensional unitary theory is identified. In the second part of the thesis, the found three dimensional unitary theory is studied in more detail from a canonical point of view. The general higher order action is written in terms of gauge-invariant functions both in flat and de Sitter backgrounds. The analysis is extended by adding static sources, spinning masses and the gravitational Chern-Simons term separately to the theory in the case of flat spacetime. For all cases the microscopic spectrum and the masses are found. In the discussion of curved spacetime, the masses are found in the relativistic and non-relativistic limits. In the Appendix, some useful calculations that are frequently used in the bulk of the thesis are given.

QC Physics 1-999

Silicon Nanostructures For Electro-optical And Photovoltaic Applications

Kulakci, Mustafa

01 February 2012

Recently extensive efforts have been spent in order to achieve all silicon based photonic devices exploiting the efficient light emission from nanostructured silicon systems. In this thesis, silicon based nanostructures have been investigated for electro-optical and photovoltaic applications. The thesis focused on three application areas of silicon nanostructures: Light emitting diode (LED), light modulation using quantum confined Stark effect (QCSE) and photovoltaic applications. In the context of LED applications, ZnO nanocrystal/silicon heterojunctions were investigated. Contrary to observation of pure ultraviolet photoluminescence (PL) from ZnO nanocrystals that were synthesized through vapor liquid solidification (VLS) method, visible emissions were observed in the electroluminescence (EL) due to defect states of ZnO. The discrepancy between these emissions could be ascribed to both change in excitation mechanisms and the defect formation on ZnO nanocrystals surface during device fabrication steps. EL properties of silicon nanocrystals embedded in SiO2 matrix were also systematically studied with and without Tb doping. Turn-on voltage of the Tb doped LED structures was reduced below 10 V for the first time. Clear observation of QCSE has been demonstrated for the first time in Si nanocrystals embedded in SiO2 through systematic PL measurements under external electric field. Temperature and size dependence of QCSE measurements were consistently supported by our theoretical calculations using linear combination of bulk Bloch bands (LCBB) as the expansion basis. We have managed to modulate the exciton energy as high as 80 meV with field strength below MV/cm. Our study could be a starting point for fabrication of electro-optical modulators in futures for all silicon based photonic applications. In the last part of the thesis, formation kinetics of silicon nanowires arrays using a solution based novel technique called as metal assisted etching (MAE) has been systematically studied over large area silicon wafers. In parametric studies good control over nanowire formation was provided. Silicon nanowires were tested as an antireflective layer for industrial size solar cell applications. It was shown that with further improvements in surface passivation and contact formation, silicon nanowires could be utilized in very efficient silicon solar cells.

QC Physics 1-999

Search For Z

Sahin, Mehmet Ozgur

01 April 2012

In this thesis, analysis of the forward backward asymmetry of high energy electron pairs at the CMS - LHC with a centre of mass energy of 7 TeV is presented and the possibility of search for a new neutral weak boson Z&rsquo / via measuring the forward backward asymmetry AFB of high energy electron pairs is discussed. The forward backward asymmetry is a natural result of the interference between the neutral current mediators: Photon and Z boson. A new neutral gauge boson would also interfere with these mediators and this new interference would either enhance the forward backward asymmetry at high energies or suppress it. In this analysis, 4.67 fb&minus / 1 data collected at the CMS experiment in 2011 is used

QC Physics 1-999

Forward Backward Asymmetry, Z&rsquo

boson, LHC, CMS, Dielectron

Free Electron Density Distribution Of The Milky Way

Uzun, Nezihe

01 February 2012

The aim of this study is to determine the free electron density distribution of the Milky Way Galaxy using dispersion measures of pulsars. By making use of 1893 Galactic pulsar, 274 supernova remnant and 543 HII region data, the overall free electron density map of the Galaxy is obtained by using a 3D mesh-like structure of irregular size. The main idea behind the study is to treat each 3D section of the Galaxy privately considering the distance versus dispersion measure graphs of the pulsars that fall into those sections. This sectioning procedure is followed using a trial and error method and results in 348 sections through which free electron densities can be calculated. Using linear fits of distance versus dispersion measure graphs, pulsars that deviate from the curves are investigated and new distances are adopted to 140 of them that are decided to have wrong distance estimates. By this way both distance values and the free electron densities of the sections are improved. In the end, by using the free electron density values of 348 sections, a projected and cumulative free electron density map of the Galaxy is plotted in polar coordinates. This map is compared with three different spiral arm models and it is seen that the best accordance is with Hou et al. 2009 spiral arm model.

QC Physics 1-999

Neutrino Interaction Analysis With An Automatic Scanning System In The Opera Experiment

Hosseini, Behzad

01 June 2012

The OPERA experiment was designed to search for nu-mu to nu-tau oscillations through the observation of nu-tau charged-current interactions in the OPERA target. This search requires a massive detector and very high spatial accuracy. Both requirements are ful

QC Physics 1-999

Optimization Of Metalization In Crystalline Silicon Solar Cells

Demircioglu, Olgu

01 August 2012

iv ABSTRACT OPTIMIZATION OF METALIZATION IN CRYSTALLINE SILICON SOLAR CELLS Demircioglu, Olgu M. Sc. Department of Micro and Nanotechnology Supervisor : Prof. Dr. Rasit Turan Co-Supervisor : Assist. Prof. Dr. H. Emrah &Uuml / nalan August 2012, 103 pages Production steps of crystalline silicon solar cells include several physical and chemical processes like etching, doping, annealing, nitride coating, metallization and firing of the metal contacts. Among these processes, the metallization plays a crucial role in the energy conversion performance of the cell. The quality of the metal layers used on the back and the front surface of the cell and the quality of the electrical contact they form with the underlying substrate have a detrimental effect on the amount of the power generated by the cell. All aspects of the metal layer, such as electrical resistivity, contact resistance, thickness, height and width of the finger layers need to be optimized very carefully for a successful solar cell operation. In this thesis, metallization steps within the crystalline silicon solar cell production were studied in the laboratories of Center for Solar Energy Research and Application (G&Uuml / NAM). Screen Printing method, which is the most common metallization technique in the industry, was used for the metal layer formation. With the exception of the initial experiments, 6

QC Physics 1-999

The Effect Of Peer Instruction On High School Students&#039 / Achievement And Attitudes Toward Physics

Eryilmaz, Hulya

01 March 2004

This study aimed to explore the effectiveness one of the interactive engagement method which is peer instruction enriched by concept test on students&#039 / achievement and attitudes toward physics. In this study two types of teaching were used. These are / (1) Peer Instruction enriched by concept test, and (2) Traditional Instruction. For this study, Physics Attitude Test (PAT), Physics Achievement Test (PACT), Observation Checklist (OC), Teaching/Learning Materials were developed. Physics Attitude Test, Physics Achievement Test and Observation Checklist were used as measuring tools. The PACT and PAT were used to assess students&#039 / achievement and their attitudes toward Newton&#039 / s Laws of Motion respectively. The OC was used for treatment verification. The PACT was developed by the help of the findings from the literature. The OC was developed by the researcher. The PAT was adapted from TaSlidere&#039 / s thesis. This study was conducted with 3 teachers, 6 classes and total of 192 10th grade students in the public high schools at Yenimahalle district of Ankara in the fall semester of 2002-2003 academic years. For each teacher, 2 classes were used in the study. The teachers were trained for how to implement Peer Instruction in the classroom. Students from 3 classes participated in Traditional Instruction group and referred as control group, whereas the other 3 classes instructed by Peer Instruction referred as experimental group. The PAT and PACT were applied twice as pre-test and after a three-week treatment period as a post-test to both groups to assess and compare the effectiveness of two different types of teaching utilized in physics course. The data obtained from the administration of post-tests were analyzed by statistical techniques of Multivariate Analyses of Covariance (MANCOVA). The statistical results indicated that Peer Instruction was more effective than Traditional Instruction. Whereas the statistical analysis failed to show a significant differences between the experimental and control groups attitudes toward physics.

QC Physics 1-999