Browse > Article
http://dx.doi.org/10.9766/KIMST.2017.20.1.072

A Study of Gamma-ray Weapon  

Han, Dong Yoon (Republic of Korea Ship Lee Cheon)
Publication Information
Journal of the Korea Institute of Military Science and Technology / v.20, no.1, 2017 , pp. 72-80 More about this Journal
Abstract
Gamma-ray has some advantages as a weapon: it has the ability to transmutate matter, high penetrability through materials, and it is very harmful to living things. So it is worth to study the features of gamma-ray weapon in order to utilize it. Such abilities were simulated on the basis of Monte Carlo simulation program GEANT4. For the simulation conceptual design of gamma-ray weapon was conducted. High energy electrons, which were necessary for the high energy gamma-rays, were produced by linear electron accelerator, of which the parameters were derived from the Pohang Light Source(PLS-II). Gamma-rays were get by bremsstrahlung mechanism. The spectra of gamma-rays, that were measured at distances of 500 m, 1000 m, 1500 m and 2000 m, were gained by GEANT4.
Keywords
Gamma-ray Weapon; Interaction of Gamma Rays with Matters; Photonuclear Reaction; Nuclear Transmutation;
Citations & Related Records
연도 인용수 순위
  • Reference
1 S. Agostinelli, J. Allison, K, Amako et al., "GEANT4 Geant4 a Simulation Toolkit," Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment, Vol. 506, pp. 250-303, 2003.
2 Pohang Accelerator Laboratory, http://pal.postech.ac.kr/paleng/
3 S. H. Nam, S. H. Shin, J. D. Park et al., "Korea's New and Advanced Third Generation Light Source: PLS-II," AAPPS Bulletin, Vol. 22, No. 3, pp. 11-15, 2012.   DOI
4 Ronald O'Rourke, "Navy Shipboard Lasers for Surface, Air, and Missile Defense: Background and Issues for Congress," Congressional Research Service, USA, 2015.
5 The Resister, "UK Eyes Frikkin' Laser Directed Energy Weapon," http://www.theregister.co.uk/2016/05/26/laser_directed_energy_weapon/
6 Press TV, "US Navy to Develop Killer Lasers in Bid to Dominate Future Battles," http://www.presstv.ir/Detail/2016/06/05/468958/US-navy-laser-weapon-Northrop-Grumman-Office-of-Naval-Research-Tom-Beutner.
7 "Radiation Exposure and Contamination," Merck Manuals, http://www.merck.com/mmpe/sec21/ch317/ch317a.html, Retrieved 8 April 2011.
8 Emmad E. H, Thomas K., Hazards of Radiation and Radiation Accidents, Austral - Asian Journal of Cancer ISSN-0972-2556, Vol. 10, No. 2, pp. 71-75, April 2011.
9 G. Nelson and D. Reilly "Gamma-Ray Interactions with Matter," Los Alamos National Laboratory, pp. 27-42. http://www.lanl.gov/orgs/n/n1/panda/00326397.pdf
10 Б.С. Ишханов, И.М. Капитанов, "Гигантский Дипольный Резонанс Атомных Ядер," КДУ, Russia, pp. 4-16, 2008, http://nuclphys.sinp.msu.ru/gdr/gdr0.htm
11 F. Biggs and R. Lighthill, "Analytical Approximation for X-ray Cross Sections III," Preprint Sandia Laboratory, SAND 87-0070, 1990.
12 Chart of nuclide, National Nuclear Data Center, Brookhaven National Laboratory, http://www.nndc.bnl.gov/chart/
13 J. H. Hubbell, H. A. Gimm, and I. Overbo, "Pair, Triplet, and Total Atomic Cross Sections and Mass Attenuation Coeffiients for 1 MeV-100 GeV Photons in Elements Z=1 to 100," J. Phys. Chem. Ref. Data 9, p. 1023, 1980.   DOI
14 H. Storm and H.I. Israel Nucl. Data Tables A7, p. 565, 1970.
15 W. Heitler, "The Quantum Theory of Radiation," Oxford University Press, 1957.
16 Research N., Group C., "Talys," http://www.talys.eu/
17 Koning A., S. H., Duijvestijn M. "Talys-1.0," Proceedings of the International Conference on Nuclear Data for Science and Technology - ND2007 / Ed. by O. Bersillon, F. Gunsing, E. Bauge et al., EDP Sciences, pp. 211-214, 2008.
18 B. S. Ishkhanov, V. N. Orlin, K. A. Stopani, and V. V. Varlamov, "Photonuclear Reactions and Astrophysics," http://depni.sinp.msu.ru/-hatta/pnr-in-stars.pdf