Top

Published in:

2015 | OriginalPaper | Chapter

11. Is the Shroud of Turin in Relation to the Old Jerusalem Historical Earthquake?

Authors : Alberto Carpinteri, Giuseppe Lacidogna, Oscar Borla

Published in: Acoustic, Electromagnetic, Neutron Emissions from Fracture and Earthquakes

Publisher: Springer International Publishing

Activate our intelligent search to find suitable subject content or patents.

search-config

AI-assisted search

Off

Abstract

Phillips and Hedges suggested, in the scientific magazine Nature (1989), that neutron radiation could be liable of a wrong radiocarbon dating, while proton radiation could be responsible of the Shroud body image formation. On the other hand, no plausible physical reason has been proposed so far to explain the radiation source origin, and its effects on the linen fibres. However, some recent studies, carried out by the first author and his Team at the Laboratory of Fracture Mechanics of the Politecnico di Torino, found that it is possible to generate neutron emissions from very brittle rock specimens in compression through piezonuclear fission reactions. Analogously, neutron flux increments, in correspondence to seismic activity, should be a result of the same reactions. A group of Russian scientists measured a neutron flux exceeding the background level by three orders of magnitude in correspondence to rather appreciable earthquakes (4th degree in Richter Scale). The authors consider the possibility that neutron emissions by earthquakes could have induced the image formation on Shroud linen fibres, trough thermal neutron capture by Nitrogen nuclei, and provided a wrong radiocarbon dating due to an increment in C ₆ ¹⁴ content. Let us consider that, although the calculated integral flux of 10¹³ neutrons per square centimetre is 10 times greater than the cancer therapy dose, nevertheless it is 100 times smaller than the lethal dose.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

über 102.000 Bücher
über 537 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Finance + Banking
Management + Führung
Marketing + Vertrieb
Maschinenbau + Werkstoffe
Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

inform now

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

über 67.000 Bücher
über 390 Zeitschriften

aus folgenden Fachgebieten:

Automobil + Motoren
Bauwesen + Immobilien
Business IT + Informatik
Elektrotechnik + Elektronik
Energie + Nachhaltigkeit
Maschinenbau + Werkstoffe

Jetzt Wissensvorsprung sichern!

inform now

previous chapter Piezonuclear Neutron Emissions from Earthquakes and Volcanic Eruptions

next chapter Evolution and Fate of Chemical Elements in the Earth’s Crust, Ocean, and Atmosphere

From a geophysical and stratigraphic point of view it can be understood that the “Old Jerusalem” earthquake could have occurred between 26 and 36 A.D. [32].

Vignon M (1902) Vignon’s researches and the “Holy Shroud”. Nature 66:13–14CrossRef

Dickman S (1988) Shroud a good forgery. Nature 335:663

Phillips TJ (1989) Shroud irradiated with neutrons? Nature 337:594CrossRef

Hedges REM (1989) Replies to: shroud irradiated with neutrons? Nature 337:594CrossRef

Fanti G (2012) Open issues regarding the Turin Shroud. Sci Res Essays 7(29):2504–2512CrossRef

Mallet R (1853) Catalogue of recorded earthquakes from 1606 B.C. to A.D. 1850, Part I, 1606 B.C. to 1755 A.D. Report of the 22nd meeting of the British Association for the advancement of science held at Hull, Sept 1853, John Murray, London, pp 1–176

Rigg H (1941) Thallus: the samaritan? Harv Theol Rev 34:111–119CrossRef

Prigent P (1978) Thallos, Phlégon et le Testimonium Flavianum témoins de Jésus?, Paganisme, Judaïsme, Christianisme. Influences et Affrontements dans le Monde Antique, pp 329–334 (F. Bruce Paris, 1978)

Gospels Acts, Matthew, Mark, Luke and John. Available at http://bible.cc. Accessed May 2011

10.

The Narrative of Joseph of Arimathea. Available at http://christianbookshelf.org/. Accessed May 2011

11.

Dante Alighieri, La Divina Commedia, Inferno, Canto XXI

12.

Ambraseys N (2005) Historical earthquakes in Jerusalem – a methodological discussion. J Seismol 9:329–340CrossRef

13.

Volodichev NN, Kuzhevskij BM, Nechaev OY, Panasyuk M, Podorolsky MI (1999). Lunar periodicity of the neutron radiation burst and seismic activity on the Earth. In: Proceeding of the 26th international cosmic ray conference, Salt Lake City, August 1999, pp 17–25

14.

Kuzhevskij M, Nechaev OY, Sigaeva EA (2003) Distribution of neutrons near the Earth’s surface. Nat Hazards Earth Syst Sci 3:255–262CrossRef

15.

Kuzhevskij M, Nechaev OY, Sigaeva EA, Zakharov VA (2003) Neutron flux variations near the Earth’s crust. A possible tectonic activity detection. Nat Hazards Earth Syst Sci 3:637–645CrossRef

16.

Antonova VP, Volodichev NN, Kryukov SV, Chubenko AP, Shchepetov AL (2009) Results of detecting thermal neutrons at Tien Shan high altitude station. Geomagn Aeron 49:761–767CrossRef

17.

Sigaeva E, Nechaev O, Panasyuk M, Bruns A, Vladimirsky B, Kuzmin Y (2006) Thermal neutrons’ observations before the Sumatra earthquake. Geophys Res Abstr 8:00435

18.

Carpinteri A, Cardone F, Lacidogna G (2009) Piezonuclear neutrons from brittle fracture: early results of mechanical compression tests. Strain 45:332–339CrossRef

19.

Cardone F, Carpinteri A, Lacidogna G (2009) Piezonuclear neutrons from fracturing of inert solids. Phys Lett A 373:4158–4163CrossRef

20.

Carpinteri A, Cardone F, Lacidogna G (2010) Energy emissions from failure phenomena: mechanical, electromagnetic, nuclear. Exp Mech 50:1235–1243CrossRef

21.

Waterhouse J (1903) The Holy Shroud of Turin. Nature 67:317CrossRef

22.

Campbell P (1986) Shroud to be dated. Nature 323:482

23.

Dutton D (1988) The Shroud of Turin. Nature 332:300CrossRef

24.

Damon PE (1989) Radiocarbon dating of the Shroud of Turin. Nature 337:611–615CrossRef

25.

Riani M, Atkinson AC, Fanti G, Crosilla F (2013) Regression analysis with partially labelled regressors: carbon dating of the Shroud of Turin. J Stat Comput Simul 23:551–561MathSciNet

26.

Rinaudo JB (1998) Image formation on the Shroud of Turin explained by a protonic model affecting radiocarbon dating. III Congresso Internazionale di Studi sulla Sindone, Torino, 5–7 June 1998

27.

Fanti G (2010) Can a corona discharge explain the body image of the Turin Shroud? J Imaging Sci Technol 54(2), 020508-1/10CrossRef

28.

Amoruso V, Lattarulo F (2012) A physicochemical interpretation of the Turin Shroud imaging. Spec Issue Sci Res Essays 7(29):2554–2569

29.

National Geophysical Data Center/World Data Center (NGDC/WDC) Significant Earthquake Database, Boulder. Available at http://www.ngdc.noaa.gov/nndc/struts/form?t=101650&s=1&d=1. Accessed May 2011

30.

Min W, Zhang PZ, Deng QD (2000) Primary study on regional paleoearthquake recurrence behaviour. Acta Seismol Sin 13:180–188CrossRef

31.

Pfotzer G, Regener E (1935) Vertical intensity of cosmic rays by threefold coincidence in the stratosphere. Nature 136:718–719CrossRef

32.

Williams JB et al (2012) An early first-century earthquake in the Dead Sea. Int Geol Rev 54:1219–1228CrossRef

33.

Carpinteri A, Lacidogna G, Manuello A, Borla O (2012) Piezonuclear neutrons from earthquakes as a hypothesis for the image formation and the radiocarbon dating of the Turin Shroud. Sci Res Essays 7(29):2603–2612CrossRef

34.

Anderson IS, McGreevy R, Bilheux HZ (eds) (2009) Neutron imaging and application. A reference for the imaging community series: neutron scattering applications and techniques. Springer, New York/London, pp XVI, 341

35.

Cipriani F, Castagna JC, Lehmann MS, Wilkinson C (1995) A large image-plate detector for neutrons. Physica B 213–214:975–977CrossRef

36.

de Liso G (2010) Shroud-like experimental image formation during seismic activity. In: Proceeding of the international workshop on the scientific approach to the acheiropoietos images, ENEA, Frascati, 4–6 May 2010

37.

Richter CF (1958) Elementary seismology. W. H. Freeman, San Francisco/London

38.

Barrientos SE, Ward SN (1990) The 1960 Chile earthquake: inversion for slip distribution from surface deformation. Geophys J Int 103:589–598CrossRef

39.

Kanamori H, Cipar JJ (1974) Focal process of the great Chilean earthquake May 22, 1960. Phys Earth Planet In 9:128–136CrossRef

40.

Widom A, Swain J, Srivastava YN (2013) Neutron production from the fracture of piezoelectric rocks. J Phys G Nucl Part Phys 40:15006 (1−8)CrossRef

41.

Widom A, Swain J, Srivastava YN (2015) Photo-disintegration of the iron nucleus in fractured magnetite rocks with magnetostriction. Meccanica 50:1205–1216MathSciNetCrossRef

Title: Is the Shroud of Turin in Relation to the Old Jerusalem Historical Earthquake?
Authors: Alberto Carpinteri
Giuseppe Lacidogna
Oscar Borla
Publisher: Springer International Publishing
Book: Acoustic, Electromagnetic, Neutron Emissions from Fracture and Earthquakes
Print ISBN: 978-3-319-16954-5

Electronic ISBN: 978-3-319-16955-2

Copyright Year: 2015
DOI: https://doi.org/10.1007/978-3-319-16955-2_11

Springer Professional

Abstract

Please log in to get access to your license.

Dont have a licence yet? Then find out more about our products and how to get one now:

Springer Professional "Wirtschaft+Technik"

Springer Professional "Technik"

Premium Partners