2-Dimensional Seismic Refraction Mapping Study of the Cretaceous-Paleogene Boundary Complex from the Brazos, Texas Section

Gowan, Joshua Smith

2012 May 1900

Many scientific studies have been conducted on the Cretaceous-Paleogene boundary (KTB) in the Gulf coast region and, in particular, the Brazos River section in Falls County, Texas. Despite this, there remains much to be learned about the KTB and its depositional environment. Study of the KTB has been multidisciplinary, primarily in the fields of sedimentology and paleontology. Some researchers in these disciplines have questioned the consensus view of the placement of the KTB and subsequent interpretation of the timing of depositional events and mass extinction events. Geophysical methods have potential to provide additional understanding of the physical properties of the KTB. To date, study of the KTB has relied on point data and borehole information to create cross sections of the complex. Seismic refraction surveys can provide spatially continuous information on susburface horizons located adjacent to the KTB. In this study, seismic first-arrival traveltimes are processed with a tomographic modeling program to map the top of the hummocky cross-bedded sandstone (HCS), which is a key indicator of the deposition environment at the time of KTB boundary complex placement. The survey area is located at Cottonmouth Creek, a tributary of the Brazos River. Three seismic lines were surveyed, one across Cottonmouth Creek, and two parallel to the creek on either side. The data from the two parallel lines were processed using the 2-D seismic refraction tomography algorithm of Zelt and Smith. The reconstructed depth to the HCS in the survey area is approximately 6 m, with layer seismic velocities of 364, 1800, and 2200 m/s, respectively. Seismic tomography successfully mapped the HCS layer and reveals approximately 1 m amplitude undulations vertically and undulations on the order of several m horizontally. These variations are consistent with exposed surfaces of the HCS in the creek bed. Seismic refraction has been utilized successfully herein to map a key buried indicator, namely the top of the HCS layer, associated with the KTB complex. A detailed 3-D seismic refraction survey at this site is recommended to generate a high-resolution 2-D terrain map of the top of the HCS layer.

Cretaceous

Paleogene

Near-Surface Seismic Refraction

Seismic Tomography

Injection-compression and co-injection moldings of amorphous polymers viscoelastic simulation and experiment /

Kim, Nam Hyung.

January 2009

Dissertation (Ph. D.)--University of Akron, Dept. of Polymer Engineering, 2009. / "May, 2009." Title from electronic dissertation title page (viewed 11/27/2009) Advisor, Avraam I. Isayev; Committee members, James L. White, Erol Sancaktar, Kevin Kreider, Minel J. Braun; Department Chair, Sadhan C. Jana; Dean of the College, Stephen Cheng; Dean of the Graduate School, George R. Newkome. Includes bibliographical references.

Comparative analysis of refractive outcome using partial coherence interferometry and ultrasound biometry in phacoemulsification cataractsurgery

Yip, Pui-pui, Terri., 葉佩珮.

January 2005

published_or_final_version / Medical Sciences / Master / Master of Medical Sciences

Ultrasonic imaging

Laser interferometers.

Eye - Accommodation and refraction.

Phacoemulsification.

An investigation of the relationship between the structure and function of the myopic eye : correlating the optical, functional and structural aspects of ametropia in young adult humans

Ehsaei, Asieh

January 2012

The increasing prevalence of myopia over the past few decades and its association with potential ocular complications make myopia an important research topic. The present work is concerned with the structural and functional characteristics of a group of myopic and emmetropic individuals. The technical experiments in this work investigated firstly the effect of instrument alignment on peripheral refraction measurements and revealed that the corneal vertex was an acceptable alignment position of the Shin-Nippon NVision-K 5001 autorefractor, allowing consistent alignment with other instruments used in this research. Secondly, spectacles could be used to provide comparable vision to contact lenses in the visual performance studies. In the main experimental parts of this work, visual performance and multiple aspects of ocular structure were assessed across a wide range of eccentricities along the horizontal and vertical meridians within the same eyes. The structural properties of the myopic eye were measured through central and peripheral autorefraction, and through cornea to retina dimensions using non-contact biometry. In addition, the central and peripheral resolution acuities of myopic and emmetropic eyes for high and low contrast levels were investigated. Our structural and functional measurements revealed relatively prolate myopic eyes with reduced high contrast resolution acuity, compared to emmetropic eyes. Moreover, multiple regression analyses were performed at the fovea and outermost retinal eccentricities common to all core experiments but revealed no strong relationship between the structure and function of the myopic eye. Finally, regarding asymmetry, the nasal and superior retinae were found to be longer and to perform better in comparison to the temporal and superior retinae respectively.

617.7

A shallow seismic refraction survey over a late Quaternary fault scarp west of the Santa Rita Mountains, Arizona

Rutledge, James Thomas

January 1984

No description available.

Seismic refraction method.

Τρισδιάστατη τομογραφία σε περιοχές τεχνικών έργων με έντονες αντιθέσεις ταχύτητας: εφαρμογή στο αποστραγγιστικό δίκτυο της Μέκκας - Σαουδική Αραβία

Αρβανίτης, Μιχαήλ

26 June 2009

Στη συγκεκριμένη διατριβή περιλαμβάνεται όλη η απαραίτητη θεωρία της σεισμικής τομογραφίας όπως και ιστορική αναδρομή των μεθόδων που προηγήθηκαν αυτής που παρουσιάζεται στην ανα χείρας μελέτη. Γίνεται σύγκριση των μεθόδων ειδικά σε δεδομένα από επιφανειακά πειράματα και μελετάται η αντίδραση των αλγορίθμων σε περιπτώσεις εντόνου αντιθέσεως στη ταχύτητα των σεισμικών κυμάτων, αναλυτική μεθοδολογία ανάλυσης αβεβαιοτήτων με στατιστικές μεθόδους, θεωρητική ανάπτυξη του ευθέους αλλά και του αντιστρόφου προβλήματος, χρήση για πρώτη φορά σε ανάλογα προβλήματα των αλγορίθμων Kohonen, μεθοδολογία βέλτιστης λήψης δεδομένων σε δυσχερείς συνθήκες και τέλος λήψη, ανάλυση, ποιοτικός έλεγχος, επεξεργασία και ερμηνεία ενός μεγάλου όγκου σεισμικών δεδομένων, αλλά και ορισμένων γεωηλεκτρικών που έδρασαν συνεπικουρικά, πάνω σε ένα γεωτεχνικό πρόβλημα. Η καινοτομία της διατριβής έγκειται στην εισαγωγή γεωμετρίας Finsler για την επίλυση των προβλημάτων που δημιουργούνται στα επιφανειακά προβλήματα από τις έντονες αντιθέσεις των σεισμικών κυμάτων. / In this PhD we include all the necessary theory on seismic tomography as well as an historical review of older methods. We compare these methods especially on shallow experiments data, we compare the uncertainties with statistical methods, we develop new methods on forward and inverse problem, we use also Kohonen algorithms. The data we gathered apart from seismic ones were also downhole and electrical data in order to compare the validity of the method. We also applied Finsler geometry in order to overpass the problems that occur in shallow experiments.

Τομογραφία

Σεισμική διάθλαση

622.159 2

Tomography

Seismic refraction

Applications of Nondestructive Testing in Civil Engineering

Groves, Paul

January 2010

Presented in this thesis are two studies that apply nondestructive testing methods to civil engineering problems. The first study examines the relationship between the small-strain and large-strain properties of exhumed cast iron water pipes. Nondestructive and destructive testing programs were performed on eight pipes varying in age from 40 to 130 years. New applications of frequency domain analysis techniques including Fourier and wavelet transforms of ultrasonic pulse velocity measurements are presented. The effects of Lamb wave propagation on the ultrasonic testing results are investigated. Microstructure evaluation revealed two different types of cast iron within the pipes sampled: grey cast iron and ductile iron. A low correlation between wave propagation and large-strain measurements was observed. However, the wave velocities were consistently different between ductile and grey cast iron pipes (14% to 18% difference). Lamb waves were found to contribute significantly to the frequency content of the ultrasonic signals possibly resulting in the poor correlations observed. Therefore, correlations between wave velocities and large strain properties obtained using samples from exhumed water pipes must be used with caution in the condition assessment of aged water pipes especially for grey cast iron pipes. The second study presented in this thesis was performed to evaluate the effectiveness of three geophysical methods for geotechnical site characterization in swamps and environmentally sensitive wetland areas. The geophysical methods evaluated were electrical resistivity imaging (ERI), seismic refraction (SR), and multiple-channel analysis of surface waves (MASW). The geophysical test results were verified against the results from borehole and CPT logs. The ERI results were best for determining the depth to the glacial till. The SR results overestimated the depth to the till because of the presence of a stiffness reversal. The MASW results predicted the depth to the refusal till layer less accurately than the ERI method. However, this method was able to detect the three distinct layers above the till. These methods can be used as a basis for further development to optimize a procedure to reduce the number of boreholes required for conventional site investigations in areas that are environmentally sensitive or where access is restricted.

nondestructive

ultrasonic

cast iron

gephysics

resistivity

refraction

MASW

Civil Engineering

Detection of Clandestine Tunnels using Seismic Refraction and Electrical Resistivity Tomography

Riddle, Grey I

Unknown Date

No description available.

ERT

Seismic Refraction

Tunnel detection

Near surface geophysics

Photothermal refraction and focusing.

Forbes, Andrew.

January 1997

This thesis begins with an introduction to the interaction and refraction of light in continuous media. It is shown how these properties can be exploited to achieve focusing of parallel light rays in such a medium. Past work on Gas Lenses is reviewed, highlighting the progress in design of gas lenses, leading to a justification for the research described in the rest of the chapter. Original work by the author on the subject of continuous gas lenses at low and high pressure is then presented. Experiments show that gas lenses at low pressure have stable foci, but long focal lengths, while at high pressure two foci are produced, both of unstable character. These results are explained by a simple theory, and future applications of such lensing properties are presented. Chapter two introduces the concept of the Colliding Shock Lens (CSL), and presents shallow water wave simulations, conducted by the author, as a useful analogy to the interaction of shocks in the CSL. All the properties of the CSL lensing action are reproduced in the water simulations, yielding useful insight, by means of a simple experiment, into the physics of interacting shock waves. Chapter three presents original work by the author on the subject of multiple pulse thermal lensing. A theory is developed which predicts the behaviour of thermal lenses seen in an industrial laser chain. Experiments on thermallensing, as well as some solutions, are presented and discussed. Chapter four revises the theory of Zernike Polynomials and their application to the study of aberrations. Thermal aberrations are studied, including the aberrations introduced by thermal lensing and thermal blooming. The relationship between aberrations and subsequent beam quality and beam propagation is explored. Chapter five looks at the use of adaptive mirrors for mode matching. Although the theory of adaptive systems is well known, no-one has as yet tackled the problem of correcting for mode matching changes. A new way of thinking about mode matching is proposed, and the merits of this system, called characterisation space, are explained. Chapter six comprises the theory and design of a novel vacuum chamber which has applications in gas lens designs. All the gas lenses used in pressure experiments were housed in compressional vacuum chambers. The idea of a Tensional Vacuum Vessel (TVV) is introduced, and experiments show that such chambers are very successful low vacuum chambers. The advantages and applications of TVVs are discussed, specifically those relating to gas lens applications. At the end of this thesis it was apparent that more questions had been generated than answers. This is probably true of any study. Chapter seven therefore outlines some as yet unanswered questions, and gives some suggestions for starting points. Some of this work is presently being undertaken by the author. / Thesis (Ph.D.)-University of Natal, 1997.

Gas lenses.

Refraction.

Laser beams--Scattering.

Theses--Physics.

Wave phenomena in phononic crystals

Sukhovich, Alexey

14 September 2007

Novel wave phenomena in two- and three-dimensional (2D and 3D) phononic crystals were investigated experimentally using ultrasonic techniques. Resonant tunneling of ultrasonic waves was successfully observed for the first time by measuring the transmission of ultrasound pulses through a double barrier consisting of two 3D phononic crystals separated by a cavity. This effect is the classical analogue of resonant tunneling of a quantum mechanical particle through a double potential barrier, in which transmission reaches unity at resonant frequencies. For phononic crystals, the tunneling peak was found to be less than unity, an effect that was explained by absorption. The dynamics of resonant tunneling was explored by measuring the group velocities of the ultrasonic pulses. Very slow and very fast velocities were found at frequencies close to and at the resonance, respectively. These extreme values are less than the speed of sound in air and greater than the speed of sound in any of the crystal’s constituent materials. Negative refraction and focusing effects in 2D phononic crystals were also observed. Negative refraction of ultrasound was demonstrated unambiguously in a prism-shaped 2D crystal at frequencies in the 2nd pass band where the wave vector and group velocity are opposite. The Multiple Scattering Theory and Snell’s law allowed theoretical predictions of the refraction angles. Excellent agreement was found between theory and experiment. The negative refraction experiments revealed a mechanism that can be used to focus ultrasound using a flat phononic crystal, and experiments to demonstrate the focusing of ultrasound emitted by several point sources were successfully carried out. The importance of using phononic crystals with circular equifrequency contours, as well as matching the size of the contours inside and outside the crystal, was established. Both conditions were satisfied by a flat phononic crystal of steel rods, in which the liquid inside the crystal (methanol) was different from the outside medium (water). The possibility of achieving subwavelength resolution using this phononic crystal was investigated with a subwavelength line source (a miniature strip-shaped transducer, approximately lambda/5 wide, where lambda is sound wavelength in water). A resolution of 0.55lambda was found, which is just above the diffraction limit lambda/2.

waves

phononic crystals

negative refraction

imaging

subwavelength resolution