Oğuzhan DERVİŞAĞAOĞLU

4020

Usage of Obsidian (Igneous Energy) in Both Radiation Detection and Fixed-Target Machine in Discovery of Subatomic Particles

Usage of Obsidian (Igneous Energy) in Both Radiation Detection and Fixed-Target Machine in Discovery of Subatomic Particles

Obsidian is amorphous material which contains SiO2 compound and also is to be taken out from volcanic mountains. 75% of obsidian comprises quartz. Quartz is the required material to observe the piezoelectric effect. Obsidian originally comes from the mantle of the earth crust. When it contacts with oxygen in the air, it solidifies suddenly with no any opportunity that switches to crystallized state. Because of that reason, it becomes amorphous silica. If some chemicals such as fluorine or hydrogen with respect to semiconductors process is connected into silicon (a-si:H) that let to see photoconductivity property will be revealed. Radiation detectors have an ability of absorption. In this article, obsidian is debated on whether it can be useful for radiation detection as an absorber or not and furthermore, is evaluated if obsidian is focused on the fixed target machine as stationary target area related with the discovery of subatomic particles.
Keywords:

Obsidian, Volcanic, Amorphous, Radiation Detectors Fixed-Target Machine,

PDF

___

  • İpekoğlu, B.,; “Kuvars, Kuvarsit, Kuvars Kumu”, İstanbul Maden İhracatçıları Birliği, Türkiye Endüstriyel Mineraller Envanteri, (1999), 102- 106 pages
  • Ruud E.I. Schropp, M.Zeman, “Amorphous and Microcrystalline Silicon Solar Cells: Modeling, Materials and Device Technology”, Kluver Akademik Yayınevi, Boston (1998).
  • Cengiz G.; Caglar I.; Bılır G.,Optical Properties and Natural Radioactivity Levels of Turkish Natural Obsidians,Vol 6,(2019), pages 138-141.
  • Chataigner, C.; Işıklı, M.; Gratuze, B.; Çil, V.; Obsidian Sources in the Regions of Erzurum and Kars (North-East Turkey): New Data. Archaeometry 56(3), (2014), 351-374 pages.
  • Guo S. L.; Chan B. L.; Durrani S. A, Chapter 4 - Solid-State Nuclear Track Detectors, Handbook of Radioactivity Analysis (Third Edition) (2012), Pages 233-298 pages.
  • Bhagwat A. M., Solid State Nuclear Track Detection: Theory and Applications, Indian Society for Radiation Physics, (1993), 1-34 pages.
  • SiJk, E.C.H. and Barnes, R.S., Examination of fission fragment tracks with an electron microscope, Phil. Mag. 4, (1959) 970- 972 pages.
  • Fleischer RL, Price PB, Walker RM: The Ion Explosion Spike Mechanism for Formation of Charged Particle Tracks in Solids. J Appl Phys, 36:,(1965), 3645-3652 pages.
  • Roberts JH, Gold R, Armani RJ: Spontaneous Fission decay Constant of 238U. Phys Rev, (1968),1482-1484 pages.
  • Flerov GN, Perelygin VP, Otgonsuren O, On the origin of Tracks of Fission Fragments in Lead Glasses. At Energ, (1972), 33:979- 984 pages.
  • Durrani SA, Khan HA: Annealing of Fission Tracks in Tektites: Corrected Ages of Bediasites, Earth Plant Sci Lett, (1972), 9:431- 445 pages.
  • Campero AM, Fleischer RL, Likes RS: Changes in Subsurface Radon Concentration Associated with Earthquakes. Jr Geophysical res,(1980), 85: 3053-3057 pages.
  • Faul H, Wagner GA: Fission Track Dating, in Dating Techniques for the Archaeologist HN Michael and EK Ralph (eds), Cambridge: MIT Press, (1971), 152- 156 pages.
  • Macdougall JM: Meteoritics,(1975), 10:449 pages.
  • Bodu R, Bouzigues H, Morin N, Pfiffelman JP: On the Existence of Amomalous Isotopic Abundances in Uranium from Gabon. Compt rend Paris, (1972), 275:1731-1732 pages.
  • Hansen P, Heitmann H, Smit PH: Nuclear Tracks in Iron Granet Films. Phys Rev, (1982), B26:3539 pages.
  • Khan HA, Brandt R, Hirdes D, Tress G, Dersch G, Jamil K: Use of Mica Nuclear Filter in the development of a Background Free Radon Presonnel Dosimeter. Journal of Aerosol Science, (1983), 14:232-237 pages.
  • Poulsen H. P., Neuefeind J., Neumann H. B., Schneider J. R., Zeidler M. D., Amorphous silica studied by high energy X-ray diffraction, Journal of non- crystalline solids 188(1,2), (1995), 63-74 pages.
  • Martin, B.R.; Shaw G.; Particle Physics 3 rd Edition ISBN 978-0-470-03293-0.(cloth),ISBN 978-0-470-03294-7(Pbk.),(2008).
  • Heuser J.M.; Ivanov V.V., The Compressed Baryonic Matter experiment at FAIR: physics of strangeness and charm, status of preparations, In Journal of Physics G Nuclear and Particle
Journal of Investigations on Engineering and Technology-Cover
  • ISSN: 2687-3052
  • Yayın Aralığı: Yılda 2 Sayı
  • Başlangıç: 2018
  • Yayıncı: Karadeniz Teknik Üniversitesi
Arşiv
Sayıdaki Diğer Makaleler

Asfalt Kaplamalarda Akustik Özellikler

Emel ŞİT, Erol İSKENDER, Atakan AKSOY

Usage of Obsidian (Igneous Energy) in Both Radiation Detection and Fixed-Target Machine in Discovery of Subatomic Particles

Oğuzhan DERVİŞAĞAOĞLU

Karışık Nikel-Kobalt Hidroksit Çökeleğinin Karbotermik İndirgenmesi

Said ERAY

Güneş Enerjisi Sistemleri için Arduino Tabanlı Matlab/Simulink Programı Üzerinden Denetlenen Akü Şarj Ünitesi Tasarımı ve Uygulaması

Haydar YURDAKUL, Erol DELİTAY, Ömür AKYAZI, Erdinc SAHIN

Dynamic Seismic Spectrum Analyses of a 120 m High Reinforced Concrete Chimney According to Turkish Building Earthquake Code 2018 (TBEC-2018)

Zeki KARACA, Erdem TÜRKELİ, Aslı ÇİÇEK

Kalsitin Çimento İkame Malzemesi Olarak Kullanımının Basınç Dayanımına Etkisi

İlknur BEKEM KARA