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    Journals >High Power Laser and Particle Beams >Volume 31 >Issue 12 >Page 125002 > Article
    • High Power Laser and Particle Beams
    • Vol. 31, Issue 12, 125002 (2019)
    Compressed strong magnetic field confinement effect on alpha particle energy in field-reversed configuration plasma target
    Xiaoming Zhao, Chengwei Sun*, Qizhi Sun, Yuesong Jia, and Weidong Qin
    Author Affiliations
  • Institute of Fluid Physics, CAEP, Mianyang 621999, China
    • show less
    DOI: 10.11884/HPLPB201931.190047 Cite this Article
    Xiaoming Zhao, Chengwei Sun, Qizhi Sun, Yuesong Jia, Weidong Qin. Compressed strong magnetic field confinement effect on alpha particle energy in field-reversed configuration plasma target[J]. High Power Laser and Particle Beams, 2019, 31(12): 125002 Copy Citation Text show less
    The initial profile of plasma density, temperature and magnetic field
    Fig. 1. The initial profile of plasma density, temperature and magnetic field
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    Pulse current and inner and outer radius of the solid liner as a function of time
    Fig. 2. Pulse current and inner and outer radius of the solid liner as a function of time
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    Compressed magnetic field both at boundary and internal plasma(R1=0.8 mm, R2=8 mm, R3=16 mm) as a function of time.
    Fig. 3. Compressed magnetic field both at boundary and internal plasma(R1=0.8 mm, R2=8 mm, R3=16 mm) as a function of time.
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    Three phases for the compression of plasma
    Fig. 4. Three phases for the compression of plasma
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    Alpha particle energy distribution
    Fig. 5. Alpha particle energy distribution
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    Distributions of fusion energy deposited to plasma, thermal conduction and radiation
    Fig. 6. Distributions of fusion energy deposited to plasma, thermal conduction and radiation
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    Non-local heating power of alpha particles to ions and electrons
    Fig. 7. Non-local heating power of alpha particles to ions and electrons
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    Local heating power of alpha particles to ions and electrons
    Fig. 8. Local heating power of alpha particles to ions and electrons
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    Loss rate in SOL (initial position:R1=2.51 cm, R2=2.54 cm,R3=2.59 cm)
    Fig. 9. Loss rate in SOL (initial position:R1=2.51 cm, R2=2.54 cm,R3=2.59 cm)
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    Parallel conductivity coefficient in SOL and separatrix length (initial position:R3=2.59 cm)
    Fig. 10. Parallel conductivity coefficient in SOL and separatrix length (initial position:R3=2.59 cm)
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    Final plasma temperature with or without end effect of alpha particle energy
    Fig. 11. Final plasma temperature with or without end effect of alpha particle energy
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    Abstract
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    Xiaoming Zhao, Chengwei Sun, Qizhi Sun, Yuesong Jia, Weidong Qin. Compressed strong magnetic field confinement effect on alpha particle energy in field-reversed configuration plasma target[J]. High Power Laser and Particle Beams, 2019, 31(12): 125002
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