Lithium-drifted germanium detectors their fabrication and use; an annotated bibliography. Compiled by Ina Calloway Brownridge. by Ina Calloway Brownridge

Cover of: Lithium-drifted germanium detectors | Ina Calloway Brownridge

Published by IFI/Plenum in New York .

Written in English

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Subjects:

  • Germanium diodes -- Bibliography,
  • Semiconductor nuclear counters -- Bibliography

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Classifications
LC ClassificationsZ7144 N77 B7
The Physical Object
Pagination210p.
Number of Pages210
ID Numbers
Open LibraryOL18170564M

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A lithium-drifted germanium detector is a semiconductor de­ vice which operates at liquid nitrogen temperature, and is used for detection of nuclear radiation, mostly gamma ray. The detection occurs when the y-ray undergoes an interaction in the intrinsic or I region of the : Paperback.

A lithium-drifted germanium detector is a semiconductor de­ vice which operates at liquid nitrogen temperature, and Lithium-drifted germanium detectors book used for detection of nuclear radiation, mostly gamma ray. The detection occurs when the y-ray undergoes an interaction in the intrinsic or I region of the semiconductor.

The. Buy Lithium-Drifted Germanium Detectors. Proceedings of a Panel on the Use of Lithium-Drifted Germanium Gamma-Ray Detectors for Research in Nuclear Physics, Held in Vienna, June on FREE SHIPPING on qualified ordersAuthor: International Atomic Energy Agency.

Additional Physical Format: Online version: Panel on the Use of Lithium-Drifted Germanium Gamma-Ray Detectors for Research in Nuclear Physics ( Vienna). Find many great new & used options and get the best deals for Lithium-Drifted Germanium Detectors: Their Fabrication and Use by I.

Brownridge (, Hardcover) at the best online prices at eBay. Free shipping for many products!5/5(1). COVID Resources. Reliable information about the coronavirus (COVID) is available from the World Health Organization (current situation, international travel).Numerous and frequently-updated resource results are available from this ’s WebJunction has pulled together Lithium-drifted germanium detectors book and resources to assist library staff as they consider how to handle coronavirus.

A semiconductor detector in ionizing radiation detection physics is a device that uses a semiconductor (usually silicon or germanium) to measure the effect of incident charged particles or photons. Semiconductor detectors find broad application for radiation protection, gamma and X-ray spectrometry, and as particle detectors.

advantages and disadvantages of silicon and germanium detectors for photon spectros­ copy below keV are outlined. The use of lithium-drifted silicon detectors for photon spectroscopy below keV has several advantages.

First, silicon detectors can be made with less than g/m2File Size: 7MB. This book (Practical Electron Microscopy and Database) is a reference for TEM and SEM students, operators, engineers, technicians, managers, and researchers.

===== The key component of germanium (Ge) EDS detectors is the Ge crystals. The Ge crystals may be either lithium drifted Ge (Ge (Li)) or high-purity intrinsic Ge (HPGe).

NUCLEAR INSTRUMENTS AND METHODS 80 () ; NORTH-HOLLAND PUBLISHING CO. SELECTION OF GERMANIUM FOR LITHIUM-DRIFTED RADIATION DETECTORS BY OBSERVATION OF ETCH-PIT DISTRIBUTIONS* W. HANSEN, R. PEHL, E. RIVET and F. GOULDING Lawrence Radiation Laboratory, University of California, Berkeley, California, U.S.A.

Received 27 Cited by: 8. Brownridge I.C. () Bibliography Lithium-Drifted Germanium Detectors. In: Lithium-Drifted Germanium Detectors: Their Fabrication and Use.

Springer, Boston, MAAuthor: Ina Calloway Brownridge. NUCLEAR INSTRUMENTS AND METHODS 46 () ; NORTH-HOLLAND PUBLISHING CO. PULSE SHAPE DISTRIBUTIONS FROM G-RAYS IN LITHIUM DRIFTED GERMANIUM DETECTORS* M. STRAUSS, R. N LARSEN and L. SIFTER Argonne National Laboratory, Argonne, Illinois Received 13 April Pulse shape distributions resulting from the interaction of y-rays in planar Cited by: Other articles where Lithium-drifted silicon detector is discussed: radiation measurement: Silicon detectors: These relatively thick lithium-drifted silicon detectors are widely used for X-ray spectroscopy and for the measurement of fast-electron energies.

Operationally, they are normally cooled to the temperature of liquid nitrogen to minimize the number of thermally generated carriers that. This book (Practical Electron Microscopy and Database) is a reference for TEM and SEM students, operators, engineers, technicians, managers, and researchers.

===== The X-ray signal in electron microscopes (EMs) is often collected by compact solid state detectors based on lithium-drifted silicon, Si (Li), diodes as shown in Figure a.

In the. Lithium drifted germanium detectors have been prepared for use as high resolution gamma ray spectrometers. The fabrication procedure and the problems which can arise during preparation are discussed in detail. Using the techniques described, germanium detectors having the following characteristics were prepared.

Active Volume cm³ cm³ cm³ cm³ Total Resolution at. ORTEC provides a comprehensive suite of HPGe radiation detector solutions covering an extensive range of energies and for a variety of applications. Learn more about ORTEC's High Purity Germanium Radiation Detectors (HPGe) today.

Lithium-drifted germanium [Ge(Li)] detectors are typically used to detect photons at lower energies with lower efficiencies, but with a gamma ray energy resolution of E /E = - 1%.

The higher energy resolution is essential in radioactive counting situations where a large number of lines are present in a gamma ray spectrum.

It should be mentioned that a Ge(Li) detector is far more expensive. Germanium Detector One principal component of the spectroscopy system is the germanium detector. Two basic types of detectors exist: the lithium-drifted germanium [Ge(Li)j detector and the high-purity germanium (HPGe) detector (often called an intrinsic germanium detector).

Resolving power of gamma-ray coincidence spectrometry using lithium drifted germanium detectors and its application to multiple radioisotope analysis I. Pagden, and J. Sutherland Anal. Chem.,42 (3), pp –   Lithium-Drifted Germanium Detectors: Their Fabrication and Use: A lithium-drifted germanium detector is a semiconductor de­ vice which operates at liquid nitrogen temperature, and is used for detection of nuclear radiation, mostly gamma : Srivatsa Vasudevan.

UCRL UNIVERSITY OF CALIFORNIA Lawrence Radiation Laboratory Berkeley, California AEC Contract No. Weng SEMICONDUCTOR DETECTORS for NUCLEAR SPECTROMETRY* Fred S.

Goulding J *Lectures to be given at Herceg-Novi, Yugoslavia, August, Lithium-drifted germanium detectors for high-resolution gamma-ray spectroscopy reduce the need for wet chemistry in neutron-activation analysis.

Problems in fields as diverse as geochemistry and the history of 15th-century printing have proved susceptible to this analytic by: Abstract. Qualitative and quantitative determination of radionuclide contamination in environmental samples is often complicated by the presence of uranium- and thorium-series radioelements as well as /sup 40/K.

High resolution gamma-ray spectroscopy with lithium-drifted germanium detectors provides a method for the determination of man-made radio-nuclide contaminants in many matrices with a.

Lithium-drifted, silicon radiation detectors for harsh radiation environments Article (PDF Available) in Journal of Materials Science Materials in Electronics 19(S1) December with Reads. routti, j.t. high-energy neutron spectroscopy with activation detectors, incorporating new methods for the analysis of ge(li) gamma-ray spectra and the solution of fredholm integral equations.

united states: n. Radioanalytical applications of gamma-gamma coincidence techniques with lithium-drifted germanium detectors. J Nucl Med.

Jan;12(1) Use of lithium-drifted germanium detectors for clinical radionuclide scanning. Hoffer PB, Beck RN, Lembares N, Charleston DB, Gottschalk by:   The main methods described include: alpha and gamma ray spectrometry, the interaction of alpha and gamma radiation with matter and the detectors used (grid chambers, surface barrier silicon detector for alpha radiation; and sodium iodide thallium activated phosphors, hyperpure and lithium drifted germanium semiconductor detectors for gamma Author: D.

Nordemann, E. Pereira. rcsolving eapability. Lithium drifted Germanium deteetors are characterized principally by the way in which the radiation sensitive zone is aehieved. ¡'hen the diffused Li ions are drifted under arcverse bias across theoriginal P-rypeGermanium, large inuinsic regions can beobtained ere are almost no free charge earriers.

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Comprised of 23 chapters, this book starts with an overview of the application of lithium-drifted germanium gamma-ray detectors in single detector systems from the perspective of. Lithium-Drifted Germanium Detectors: Their Fabrication and Use: A lithium-drifted germanium detector is a semiconductor de­ vice which operates at liquid nitrogen temperature, and is used for detection of nuclear radiation, mostly gamma : Hugh Lytton.

Radiation Detection and Measurement by Glenn F. Knoll. Wiley & Sons, Incorporated, John, Hardcover. Acceptable. Disclaimer:A readable copy. All pages are intact, and the cover is intact. Pages can include considerable notes-in pen or highlighter-but the notes cannot obscure the text.

At ThriftBooks, our motto is: Read More, Spend jacket quality is not guaranteed. None, germanium is not a metal. While it has a few of the properties of metals, in the pure form germanium is a brittle crystalline solid that instantly shatters when pressure or any other stress.

Repor s Lithium-Drifted Germanium Detectors: Applications to Neutron-Activation Analysis Abstract. Lithium-drifted germanium detectors for high-resolution gamma-ray spectroscopy reduce the need for wet chemistry in neutron-activation analysis.

Problems in fields as diverse as geochemistry and the history of 15th-century printing have proved susceptible to this analytic technique. A discussion is given of the basic operating characteristics and some applications of lithium-drifted silicon and germanium detectors for conversion-electron and gamma-ray spectroscopy.

Photon noise limited performance of photoconductive detectors made from gallium doped germanium in very low infrared backgrounds (less than or equal to ten to the minus 8th power incident photons per second) is reported in this report. These detectors were made from a large volume crystal of Ge:Ga of the quality used for lithium drifted germanium gamma-ray by: Following the development of the lithium drifted silicon and germanium [Si(Li) and Ge(Li)] semiconductor radiation detectors in the mid ’s, and more recently the high purity germanium detector [HPGe], the analytical technique of energy dispersive x-ray fluorescence analysis (XRFA)1matured during the ’: David C.

Camp. Silicon drift detectors (SDDs) are X-ray radiation detectors used in x-ray spectrometry (XRF and EDS) and electron chief characteristics compared with other X-ray detectors are: high count rates; comparatively high energy resolution (e.g. eV for Mn Kα wavelength).

Comprised of 23 chapters, this book starts with an overview of the application of lithium-drifted germanium gamma-ray detectors in single detector systems from the perspective of obtaining optimum performance/5(2). Semiconductor X-Ray Detectors focuses on the history and development of Si(Li) X-Ray Detectors, an important supplement to the knowledge now required to achieve full understanding of the workings of SDDs, CCDs, and Compound Semiconductor Detectors.

The book provides an up-to-date review of the principles, practical applications, and state of.Acta Crystallographica Section B: Structural Science, Crystal Engineering and Materials publishes scientific articles related to the structural science of compounds and materials in the widest sense.

Knowledge of the arrangements of atoms, including their temporal variations and dependencies on temperature and pressure, is often the key to understanding physical and chemical phenomena and is.II. Configurations Of Germanium Detectors.

III. Germanium Detector Operational Characteristics. IV. Gamma-Ray Spectroscopy With Germanium Detectors. Chapter 13 Other Solid-State Detectors. I. Lithium-Drifted Silicon Detectors.

II. Semiconductor Materials Other Than Silicon Or Germanium. III. Avalanche Detectors. IV. Photoconductive Detectors.

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