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Multi-Component Vertical seismic profiling Analysis for Applied Seismic Anisotropy (2002)

C. MacBeth

Elsevier

In: Amsterdam, 360 pp., Elsevier, vol. 26, no. 22, pp. 662-664, (ISBN 0-470-87000-1 (HB), ISBN 0-470-87001-X (PB))

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Publication Date: 2002

Description: The vertical seismic profile, acquired with an array of 3C receivers and either a single source or several arranged in a multi-component configuration, provides an ideal high fidelity calibration tool for seismic projects involved in the application of seismic anisotropy. This book catalogues the majority of specialized tools necessary to work with P-P, P-S and S-S data from such Vertical seismic profiling surveys at the acquisition design, processing and interpretation stages. In particular, it discusses 3C, 4C, 6C and 9C Vertical seismic profiling, marine and land surveys with near and multiple offsets (walkways), azimuths (walkarounds) or a combination of both. These are considered for TIH or TIV flavours of seismic anisotropy arising from cracks, fractures, sedimentary layering, and shales. The anisotropic adaptation of familiar seismic methods for velocity analysis and inversion, reflected amplitude interpretation, are given together with more multi-component specific algorithms based upon the principles dictated by the vector convolutional model. Thus, multi-component methods are described that provide tests and compensation for source or receiver vector fidelity, tool rotation correction, layer stripping, near-surface correction, wavefield separation, and the Alford rotation with its variants. The work will be of interest to geophysicists involved in research or the application of seismic anisotropy using multi-component seismic. CONTENTS 1. Introduction. 2. Anisotropic replacement media. 3. Fundamentals of seismic anisotropy analysis. 4. Pre-requisites for near-offset Vertical seismic profiling analysis. 5. Anisotropy analysis from near-offset Vertical seismic profiling I - symmetry and uniformity. 6. Anisotropy analysis from far-offset Vertical seismic profiling II - asymmetry and non-uniformity. 7. Multiple-offset Vertical seismic profiling - kinematics. 8. Multiple-offset Vertical seismic profiling - dynamics. 9. The road ahead. Appendix - shear-wave birefringence analysis.

Keywords: Applied geophysics ; Seismics (controlled source seismology) ; Vertical seismic profiling ; Anisotropy ; Textbook of geophysics

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BIBLIOGRAPHY SEISMOLOGY

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Seismic Signatures and Analysis of Reflection Data in Anisotropic Media (2001)

I. Tsvankin

Elsevier

In: Amsterdam, Elsevier, vol. 10, no. ALEX(01)-FR-77-01, AFTAC Contract F08606-76-C-0025, pp. 329, (ISBN: 0-08-043649-8)

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Publication Date: 2001

Description: Following the breakthrough in the last decade in identifying the key parameters for time and depth imaging in anisotropic media and developing practical methodologies for estimating them from seismic data, this title primarily focuses on the far reaching exploration benefits of anisotropic processing. This volume provides the first comprehensive description of reflection seismic signatures and processing methods in anisotropic media. It identifies the key parameters for time and depth imaging in transversely isotropic media and describes practical methodologies for estimating them from seismic data. Also, it contains a thorough discussion of the important issues of uniqueness and stability of seismic velocity analysis in the presence of anisotropy. The book contains a complete description of anisotropic imaging methods, from the theoretical background to algorithms to implementation issues. Numerous applications to synthetic and field data illustrate the improvements achieved by the anisotropic processing and the possibility of using the estimated anisotropic parameters in lithology discrimination.

Keywords: Textbook of geophysics ; Seismics (controlled source seismology) ; Reflection seismics ; Anisotropy

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BIBLIOGRAPHY SEISMOLOGY

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An anisotropic hydrogel with electrostatic repulsion between cofacially aligned nanosheets (2015)

M. Liu ; Y. Ishida ; Y. Ebina ; [et al.]

Nature Publishing Group (NPG)

In: Nature. 517(7532): 68-72. doi: 10.1038/nature14060.

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Publication Date: 2015-01-06

Description: Machine technology frequently puts magnetic or electrostatic repulsive forces to practical use, as in maglev trains, vehicle suspensions or non-contact bearings. In contrast, materials design overwhelmingly focuses on attractive interactions, such as in the many advanced polymer-based composites, where inorganic fillers interact with a polymer matrix to improve mechanical properties. However, articular cartilage strikingly illustrates how electrostatic repulsion can be harnessed to achieve unparalleled functional efficiency: it permits virtually frictionless mechanical motion within joints, even under high compression. Here we describe a composite hydrogel with anisotropic mechanical properties dominated by electrostatic repulsion between negatively charged unilamellar titanate nanosheets embedded within it. Crucial to the behaviour of this hydrogel is the serendipitous discovery of cofacial nanosheet alignment in aqueous colloidal dispersions subjected to a strong magnetic field, which maximizes electrostatic repulsion and thereby induces a quasi-crystalline structural ordering over macroscopic length scales and with uniformly large face-to-face nanosheet separation. We fix this transiently induced structural order by transforming the dispersion into a hydrogel using light-triggered in situ vinyl polymerization. The resultant hydrogel, containing charged inorganic structures that align cofacially in a magnetic flux, deforms easily under shear forces applied parallel to the embedded nanosheets yet resists compressive forces applied orthogonally. We anticipate that the concept of embedding anisotropic repulsive electrostatics within a composite material, inspired by articular cartilage, will open up new possibilities for developing soft materials with unusual functions.〈br /〉〈span class="detail_caption"〉Notes: 〈/span〉Liu, Mingjie -- Ishida, Yasuhiro -- Ebina, Yasuo -- Sasaki, Takayoshi -- Hikima, Takaaki -- Takata, Masaki -- Aida, Takuzo -- England -- Nature. 2015 Jan 1;517(7532):68-72. doi: 10.1038/nature14060.〈br /〉〈span class="detail_caption"〉Author address: 〈/span〉RIKEN Center for Emergent Matter Science, 2-1 Hirosawa, Wako, Saitama 351-0198, Japan. ; National Institute for Materials Science, International Center for Materials Nanoarchitectonics, 1-1 Namiki, Tsukuba, Ibaraki 305-0044, Japan. ; RIKEN SPring-8 Center, 1-1-1 Kouto, Sayo, Hyogo 679-5198, Japan. ; 1] RIKEN Center for Emergent Matter Science, 2-1 Hirosawa, Wako, Saitama 351-0198, Japan [2] Department of Chemistry and Biotechnology, School of Engineering, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan.〈br /〉〈span class="detail_caption"〉Record origin:〈/span〉 〈a href="http://www.ncbi.nlm.nih.gov/pubmed/25557713" target="_blank"〉PubMed〈/a〉

Keywords: Anisotropy ; Biomimetics ; Cartilage, Articular/chemistry ; Hydrogel/*chemistry ; Nanostructures/*chemistry ; Niobium/chemistry ; *Static Electricity ; Titanium/chemistry

Print ISSN: 0028-0836

Electronic ISSN: 1476-4687

Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics

Published by Nature Publishing Group (NPG)

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