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Calculation of energy deposited and stopping range through deuterium ignition beam and dynamical studies on the energy gain in D-3He mixtures

Year 2015, Volume: 3 Issue: 2, 113 - 118, 30.03.2015
https://doi.org/10.18100/ijamec.42819

Abstract

The fast ignition approach to ICF consists in first compressing the fuel to high density by a suitable driver and then creating the hot spot required for ignition by means of a second external pulse. If the ignition beam is composed of deuterons, an additional energy is delivered to the target with increased energy gain. Therefore ,in this innovative suggestion ,we consider deuterium  beams for fast ignition in D+3He mixture and solve the dynamical  balance equations under the available  physical conditions by considering a new average reactivity formula ,then we compute the energy gain in this mixture .Our computational results show that we can get energy gain value larger than 1000 at resonant temperature (380keV)of D+3He  mixture. We select D+3He fuel, because D+3He reaction is very attractive from a theoretical point of view since it does not produced neutrons. The D+3He benefits include full-lifetime materials, reduced radiation damage, less activation, absence of tritium breeding blankets, highly efficient direct energy conversion, easier maintenance, proliferation resistance. The deposited energy can reduce laser driver energy. Our calculations show that at 380 Kev (resonant temperature) the maximum numbers of fusion reactions are performed and the energy gain is maximized.

References

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  • H. Schwoerer, S. Pfotenhauer, O. Jackel, K. U. Amthor, Ziegler, R. Sauerbrey, K. W. D. Ledingham, and T. Esirkepov ,Nature London439,445 (2006).
  • C. Bathke, H. Towner, and G. H. Miley, Trans. Am. Nucl.

Original Research Paper

Year 2015, Volume: 3 Issue: 2, 113 - 118, 30.03.2015
https://doi.org/10.18100/ijamec.42819

Abstract

References

  • J D Lindl Phys Plasmas 2 3933 (1995) and Phys Plasmas 11 339 (2004).
  • S E Bodner et al. Phys Plasmas 5, 1901 (1998)
  • N.G. Basov, S.Y. Guskov and L.P. Feokistov, J. Sov. Laser Res. 13, 396 (1992).
  • M Tabak et al Phys Plasmas 1 1626 (1994)
  • K. A. Tanaka, R. Kodama, H. Fujita, et al., Phys. Plas-mas 7, 2014 (2000).
  • Xing Z. Li, Qing M. Wei and Bin Liu, Nucl. Fusion 48, 125003 (5pp) (2008).
  • V. Bychenkov, W. Rozmus, A. Maksimchuk, D. Umstadter, and C.Capjack, Plasma Phys. Rep. 27, 1017 (2001).
  • H. Schwoerer, S. Pfotenhauer, O. Jackel, K. U. Amthor, Ziegler, R. Sauerbrey, K. W. D. Ledingham, and T. Esirkepov ,Nature London439,445 (2006).
  • C. Bathke, H. Towner, and G. H. Miley, Trans. Am. Nucl.
There are 9 citations in total.

Details

Primary Language English
Journal Section Research Article
Authors

S. N. Hosseinimotlagh This is me

M. Jahedi This is me

S. Kianafraz This is me

Sakineh Ghaderi

Publication Date March 30, 2015
Published in Issue Year 2015 Volume: 3 Issue: 2

Cite

APA Hosseinimotlagh, S. N., Jahedi, M., Kianafraz, S., Ghaderi, S. (2015). Calculation of energy deposited and stopping range through deuterium ignition beam and dynamical studies on the energy gain in D-3He mixtures. International Journal of Applied Mathematics Electronics and Computers, 3(2), 113-118. https://doi.org/10.18100/ijamec.42819
AMA Hosseinimotlagh SN, Jahedi M, Kianafraz S, Ghaderi S. Calculation of energy deposited and stopping range through deuterium ignition beam and dynamical studies on the energy gain in D-3He mixtures. International Journal of Applied Mathematics Electronics and Computers. March 2015;3(2):113-118. doi:10.18100/ijamec.42819
Chicago Hosseinimotlagh, S. N., M. Jahedi, S. Kianafraz, and Sakineh Ghaderi. “Calculation of Energy Deposited and Stopping Range through Deuterium Ignition Beam and Dynamical Studies on the Energy Gain in D-3He Mixtures”. International Journal of Applied Mathematics Electronics and Computers 3, no. 2 (March 2015): 113-18. https://doi.org/10.18100/ijamec.42819.
EndNote Hosseinimotlagh SN, Jahedi M, Kianafraz S, Ghaderi S (March 1, 2015) Calculation of energy deposited and stopping range through deuterium ignition beam and dynamical studies on the energy gain in D-3He mixtures. International Journal of Applied Mathematics Electronics and Computers 3 2 113–118.
IEEE S. N. Hosseinimotlagh, M. Jahedi, S. Kianafraz, and S. Ghaderi, “Calculation of energy deposited and stopping range through deuterium ignition beam and dynamical studies on the energy gain in D-3He mixtures”, International Journal of Applied Mathematics Electronics and Computers, vol. 3, no. 2, pp. 113–118, 2015, doi: 10.18100/ijamec.42819.
ISNAD Hosseinimotlagh, S. N. et al. “Calculation of Energy Deposited and Stopping Range through Deuterium Ignition Beam and Dynamical Studies on the Energy Gain in D-3He Mixtures”. International Journal of Applied Mathematics Electronics and Computers 3/2 (March 2015), 113-118. https://doi.org/10.18100/ijamec.42819.
JAMA Hosseinimotlagh SN, Jahedi M, Kianafraz S, Ghaderi S. Calculation of energy deposited and stopping range through deuterium ignition beam and dynamical studies on the energy gain in D-3He mixtures. International Journal of Applied Mathematics Electronics and Computers. 2015;3:113–118.
MLA Hosseinimotlagh, S. N. et al. “Calculation of Energy Deposited and Stopping Range through Deuterium Ignition Beam and Dynamical Studies on the Energy Gain in D-3He Mixtures”. International Journal of Applied Mathematics Electronics and Computers, vol. 3, no. 2, 2015, pp. 113-8, doi:10.18100/ijamec.42819.
Vancouver Hosseinimotlagh SN, Jahedi M, Kianafraz S, Ghaderi S. Calculation of energy deposited and stopping range through deuterium ignition beam and dynamical studies on the energy gain in D-3He mixtures. International Journal of Applied Mathematics Electronics and Computers. 2015;3(2):113-8.