Solid-State Nuclear Track Detection - A Useful Geological Geophysical Tool

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Journal Article: Solid-State Nuclear Track Detection - A Useful Geological Geophysical Tool

Abstract
Solid State Nuclear Track Detection (SSNTD) is a relatively new nuclear particle detection technique. Since its inception, it has found useful application in almost every branch of science. This paper gives a very brief review of the role it has played in solving some geological/geophysical problems. Since the technique has been found useful in a wide spectrum of geological/geophysical applications, it was simply not possible to discuss all of these in this paper due to severe space restrictions. However, an attempt has been made to discuss the salient features of some of the most prominent applications in the geological and geophysical sciences. The paper has been divided into two parts. Firstly, applications based on radon measurements by SSNTDs have been described. These include: Uranium/thorium and mineral exploration, search for geothermal energy sources, study of volcanic processes, location of geological faults and earthquake prediction, for example. Secondly, applications based on the study of spontaneous fission tracks in geological samples have been described briefly. The second group of applications includes: fission track dating (FTD) of geological samples, FTD in the study of emplacement times, provenance studies, and thermal histories of minerals. Necessary references have been provided for detailed studies of (a) the applications cited in this paper, and (b) other important geological/geophysical applications, which unfortunately could not be covered in the present paper.

Authors 
H. A. Khan and A. A. Qureshi








Published Journal 
Nuclear Geophysics, 1994





DOI 
Not Provided
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Citation

H. A. Khan,A. A. Qureshi. 1994. Solid-State Nuclear Track Detection - A Useful Geological Geophysical Tool. Nuclear Geophysics. (!) .