Compton scatter imaging: A tool for historical exploration.

This review discusses the principles and technological realisation of a technique, termed Compton scatter imaging (CSI), which is based on spatially resolved detection of Compton scattered X-rays. The applicational focus of this review is to objects of historical interest. Following a historical survey of CSI, a description is given of the major characteristics of Compton X-ray scatter. In particular back-scattered X-rays allow massive objects to be imaged, which would otherwise be too absorbing for the conventional transmission X-ray technique. The ComScan (an acronym for Compton scatter scanner) is a commercially available backscatter imaging system, which is discussed here in some detail. ComScan images from some artefacts of historical interest, namely a fresco, an Egyptian mummy and a mediaeval clasp are presented and their use in historical analysis is indicated. The utility of scientific and technical advance for not only exploring history, but also restoring it, is briefly discussed.

[1]  Joseph C. Wehlburg,et al.  Image restoration techniques using Compton backscatter imaging for the detection of buried land mines , 1995, Defense, Security, and Sensing.

[2]  R Guzzardi,et al.  A critical review of Compton imaging. , 1987, Critical reviews in biomedical engineering.

[3]  R. A. Van Konynenburg,et al.  Theory and application of x-ray and gamma-ray backscatter to landmine detection. Research report, 1968-1973 , 1975 .

[4]  R Tischler,et al.  Dual-energy Compton scatter tomography. , 1986, Physics in medicine and biology.

[5]  Alan M. Jacobs,et al.  X-Ray Compton Scatter Imaging Using a High Speed Flying Spot X-Ray Tube , 1981, IEEE Transactions on Biomedical Engineering.

[6]  Geoffrey Harding,et al.  X-ray Diffraction Imaging for Explosives Detection , 2007 .

[7]  G A Carlsson,et al.  Compton spectroscopy in the diagnostic x-ray energy range. II. Effects of scattering material and energy resolution. , 1989, Physics in medicine and biology.

[8]  Fredrick L. Roder,et al.  Theory and Application of X-Ray and Gamma-Ray Backscatter to Landmine Detection , 1975 .

[9]  S. Bukshpan,et al.  Detection of imperfections by means of narrow beam gamma scattering , 1975 .

[10]  Larry E. Antonuk,et al.  Thin-film, flat-panel, composite imagers for projection and tomographic imaging , 1994, IEEE Trans. Medical Imaging.

[11]  J. H. Hubbell,et al.  XCOM: Photon cross sections on a personal computer , 1987 .

[12]  I. L. Morgan,et al.  Compton Interaction Tomography I. Feasibility Studies for Applications in Earthquake Engineering , 1983, IEEE Transactions on Nuclear Science.

[13]  P. G. Lale The examination of internal tissues, using gamma-ray scatter with a possible extension to megavoltage radiography. , 1959, Physics in medicine and biology.

[14]  J. Charbuciński,et al.  A backscatter gamma-ray spectrometric method for the determination of ash in coal , 1982 .

[15]  J. B. Weaver,et al.  Dual-energy Compton-scatter densitometry , 1983 .

[16]  J. P. Malkar,et al.  Near room temperature X-ray and γ-ray spectroscopic detectors for future space experiments , 2005 .

[17]  E. R. Christensen Monte Carlo calculations for the surface gamma density gauge , 1972 .

[18]  U Neitzel,et al.  Coherent scatter in radiographic imaging: a Monte Carlo simulation study. , 1985, Physics in medicine and biology.

[19]  K. R. Alvar,et al.  Some new applications of collimated photon scattering for nondestructive examination , 1982 .

[20]  E. Muir,et al.  Ritual in Early Modern Europe , 2007 .

[21]  Mayke De Jong,et al.  Topographies of power in the early Middle Ages , 2001 .

[22]  F T Farmer,et al.  A further appraisal of the Compton scattering method for determining anatomical cross-sections of the body. , 1974, Physics in medicine and biology.

[23]  Geoffrey Harding,et al.  X-ray imaging with Compton-scatter radiation , 1983 .

[24]  Y. Namito,et al.  Implementation of the Doppler broadening of a Compton-scattered photon into the EGS4 code , 1994 .

[25]  Malcolm J. Cooper Compton scattering and electron momentum determination , 1985 .

[26]  E. Hobsbawm,et al.  The invention of tradition , 1986 .

[27]  J. B. Mann,et al.  Hartree-Fock Compton profiles for the elements , 1975 .

[28]  G. A. Arkhipov,et al.  Using scattered gamma radiation for detecting subsurface defects in metal , 1976 .

[29]  P. Burke,et al.  Eyewitnessing: The Uses of Images as Historical Evidence , 2001 .

[30]  P. Burke,et al.  What Is Cultural History , 2004 .

[31]  Bernd Roeck Das historische Auge: Kunstwerke als Zeugen ihrer Zeit. Von der Renaissance zur Revolution , 2005 .

[32]  Lee Godden,et al.  The Invention of Tradition , 2007 .

[33]  THOMAS NIPPERDEY,et al.  NATIONALIDEE UND NATIONALDENKMAL IN DEUTSCHLAND IM 19. JAHRHUNDERT , 1968 .