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Author: Matthew Louis Baruzzini Publisher: ISBN: Category : Mass spectrometry Languages : en Pages : 232
Book Description
The precise and accurate determination of isotopic composition in nuclear forensic samples is vital for assessing origin, intended use and process history. Thermal ionization mass spectrometry (TIMS) is widely accepted as the gold standard for high performance isotopic measurements and has long served as the workhorse in the isotopic ratio determination of nuclear materials. Nuclear forensic and safeguard specialists have relied heavily on such methods for both routine and atypical efforts. Despite widespread use, TIMS methods for the assay of actinide systems continue to be hindered by poor ionization efficiency, often less than tenths of a percent; the majority of a sample is not measured. This represents a growing challenge in addressing next-generation nuclear detection needs by limiting the ability to analyze ultra-trace quantities of high priority elements that could potentially provide critical nuclear forensic signatures. Porous ion emitter (PIE) thermal ion sources were developed in response to the growing need for new TIMS ion source technologies. By simultaneously incorporating multiple, previously developed strategies for improved ionization efficiency, PIEs have proven to be simple to implement, straightforward approach to boosting ion yield. This work serves to expand the use of PIE techniques for the analysis of trace quantities of plutonium and americium. PIEs exhibited superior plutonium and americium ion yields when compared to direct filament loading and the resin bead technique, one of the most efficient methods for actinide analysis, at similar mass loading levels. Initial attempts at altering PIE composition for the analysis of plutonium proved to enhance sample utilization even further. Preliminary investigations of the instrumental fractionation behavior of plutonium and uranium analyzed via PIE methods were conducted. Data collected during these initial trial indicate that PIEs fractionate in a consistent, reproducible manner; a necessity for high precision isotope ratio measurements. Ultimately, PIEs methods were applied for the age determination of various uranium isotopic standards. PIEs did not exhibit significant advantages for the determination of model ages when compared to traditional filaments; however, this trial was able to provide valuable insight for guiding future investigations.
Author: Matthew Louis Baruzzini Publisher: ISBN: Category : Mass spectrometry Languages : en Pages : 232
Book Description
The precise and accurate determination of isotopic composition in nuclear forensic samples is vital for assessing origin, intended use and process history. Thermal ionization mass spectrometry (TIMS) is widely accepted as the gold standard for high performance isotopic measurements and has long served as the workhorse in the isotopic ratio determination of nuclear materials. Nuclear forensic and safeguard specialists have relied heavily on such methods for both routine and atypical efforts. Despite widespread use, TIMS methods for the assay of actinide systems continue to be hindered by poor ionization efficiency, often less than tenths of a percent; the majority of a sample is not measured. This represents a growing challenge in addressing next-generation nuclear detection needs by limiting the ability to analyze ultra-trace quantities of high priority elements that could potentially provide critical nuclear forensic signatures. Porous ion emitter (PIE) thermal ion sources were developed in response to the growing need for new TIMS ion source technologies. By simultaneously incorporating multiple, previously developed strategies for improved ionization efficiency, PIEs have proven to be simple to implement, straightforward approach to boosting ion yield. This work serves to expand the use of PIE techniques for the analysis of trace quantities of plutonium and americium. PIEs exhibited superior plutonium and americium ion yields when compared to direct filament loading and the resin bead technique, one of the most efficient methods for actinide analysis, at similar mass loading levels. Initial attempts at altering PIE composition for the analysis of plutonium proved to enhance sample utilization even further. Preliminary investigations of the instrumental fractionation behavior of plutonium and uranium analyzed via PIE methods were conducted. Data collected during these initial trial indicate that PIEs fractionate in a consistent, reproducible manner; a necessity for high precision isotope ratio measurements. Ultimately, PIEs methods were applied for the age determination of various uranium isotopic standards. PIEs did not exhibit significant advantages for the determination of model ages when compared to traditional filaments; however, this trial was able to provide valuable insight for guiding future investigations.
Author: Pier A. de Groot Publisher: Elsevier ISBN: 0080533272 Category : Science Languages : en Pages : 1265
Book Description
(Parent with price) Volume I contains subjective reviews, specialized and novel technique descriptions by guest authors. Part 1 includes contributions on purely analytical techniques and Part 2 includes matters such as development of mass spectrometers, stability of ion sources, standards and calibration, correction procedures and experimental methods to obtain isotopic fractionation factors.Volume II will be available in 2005.
Author: Peter Bedson Publisher: Royal Society of Chemistry ISBN: 1847559301 Category : Science Languages : en Pages : 59
Book Description
The isotope dilution mass spectrometry (IDMS) technique is well known and widely reported in the literature. However, its application can present considerable difficulties with regard to obtaining reliable results. Produced jointly by the Royal Society of Chemistry's Analytical Methods Committee and the Valid Analytical Measurement (VAM) programme, the aim of this book is to provide a simplified yet robust methodology, together with adequate guidance, to enable laboratories wishing to use the technique to obtain reliable data. The methodologies, for inorganic and organic mass spectrometry, which use exact and approximate matching, are illustrated with worked examples and clear diagrammatic representations. A comprehensive glossary of terms, references to key publications and an extensive IDMS bibliography are also provided. Clear and comprehensive in coverage, Guidelines for Achieving High Accuracy in Isotope Dilution Mass Spectrometry (IDMS) will provide valuable assistance to a wide variety of analytical chemists interested in applying the IDMS technique to their own measurement applications.
Author: I. T. Platzner Publisher: John Wiley & Sons ISBN: Category : Science Languages : en Pages : 544
Book Description
I. T. Platzner Atomic Energy Commission, Israel Including contributions from instrument manufacturers! Geological aging, chemical reaction mechanism studies, determination of atomic weights and investigation of metabolic pathways-these are all examples of the truly diverse nature of isotope ratio mass spectrometry (IRMS). With applications in fields as far apart as analytical chemistry and astronomy, geochemistry and biomedical science, it is little wonder that this technique is becoming increasingly popular. In Modern Isotope Ratio Mass Spectrometry,the first comprehensive book written on the subject for twenty-five years, examples from all these areas, and many more,are given. All modern developments in this fascinating field are discussed with special attention paid to technical details and instrumentation. Features of the book include: * comprehensive element-by-element review including 94 elements * applications chapter which stresses multi-disciplinary nature of subject * instrumentation chapter with contributions from three leading industrialists on state-of-the-art instrumentation
Author: Sabine Becker Publisher: John Wiley & Sons ISBN: 9780470517208 Category : Science Languages : en Pages : 514
Book Description
Providing an exhaustive review of this topic, Inorganic Mass Spectrometry: Principles and Applications provides details on all aspects of inorganic mass spectrometry, from a historical overview of the topic to the principles and functions of mass separation and ion detection systems. Offering a comprehensive treatment of inorganic mass spectrometry, topics covered include: Recent developments in instrumentation Developing analytical techniques for measurements of trace and ultratrace impurities in different materials This broad textbook in inorganic mass spectrometry, presents the most important mass spectrometric techniques used in all fields of analytical chemistry. By covering recent developments and advances in all fields of inorganic mass spectrometry, this text provides researchers and students with information to answer any questions on this topic as well as providing the basic fundamentals for understanding this potentially complex, but increasingly relevant subject.
Author: Lucille A. Giannuzzi Publisher: Springer Science & Business Media ISBN: 038723313X Category : Science Languages : en Pages : 362
Book Description
Introduction to Focused Ion Beams is geared towards techniques and applications. This is the only text that discusses and presents the theory directly related to applications and the only one that discusses the vast applications and techniques used in FIBs and dual platform instruments.
Author: N Saraswathy Publisher: Elsevier ISBN: 1908818050 Category : Science Languages : en Pages : 271
Book Description
Concepts and techniques in genomics and proteomics covers the important concepts of high-throughput modern techniques used in the genomics and proteomics field. Each technique is explained with its underlying concepts, and simple line diagrams and flow charts are included to aid understanding and memory. A summary of key points precedes each chapter within the book, followed by detailed description in the subsections. Each subsection concludes with suggested relevant original references. - Provides definitions for key concepts - Case studies are included to illustrate ideas - Important points to remember are noted
Author: Publisher: ISBN: Category : Languages : en Pages : 17
Book Description
Thermal ionization mass spectrometry (TIMS) is one of the most powerful techniques used to determine, both, the absolute and the relative isotopic abundance of elements. Thermal ionization is efficient for elements which have relatively low or moderate first ionization energies, and with sufficient vapor pressure at the source operating temperature. Although TIMS is a very sensitive technique, sample utilization efficiency is usually limited in conventional ion sources. For example, the traditional flat ribbon-type filament thermal ionization sources commonly have sample utilization efficiency of less than 0.2% for uranium. Thus, techniques that enhance the ionization efficiency for TIMS have been widely explored. In the early 1970s, a new type of thermal ionization source was developed by Beyer et al. and by Johnson et al., in which a refractory metal tube resembling a crucible with a deep cavity was used instead of a filament to evaporate and ionize the samples. The crucible was heated to ionizing temperatures, up to 3000 C, by high energy electron impact from a heated filament surrounding the crucible. In this way, the thermal temperature of the sources and the atom-surface interactions can be significantly increased. Therefore, considerably improving the sample ionization efficiency.
Author: Matthew Louis Baruzzini
Author: Matthew Louis Baruzzini
Author: Pier A. de Groot
Author: Peter Bedson
Author: I. T. Platzner
Author: T. Walczyk
Author: Sabine Becker
Author: Lucille A. Giannuzzi
Author: J. Ignacio Garcia Alonso
Author: N Saraswathy
Author: