Modes decomposition in particle-in-cell software CEMPIC

Aiping Fang; Shanshan Liang; Yongdong Li; Hongguang Wang; Yue Wang

doi:10.1088/1674-1056/abaed6

Chinese Physics B, Volume. 29, Issue 10, (2020)

Modes decomposition in particle-in-cell software CEMPIC

Aiping Fang^1,2、†, Shanshan Liang¹, Yongdong Li³, Hongguang Wang^3,4, and Yue Wang^3,4

Author Affiliations

¹School of Physics, Xi’an Jiaotong University, Xi’an 70049, China

²State Key Laboratory of Intense Pulsed Radiation Simulation and Effect (Northwest Institute of Nuclear Technology), Xi’an 71004, China

³Key Laboratory for Physical Electronics and Devices of the Ministry of Education, School of Electronic and Information Engineering, Xi’an Jiaotong University, Xi’an 710049, China

⁴Xian Moduo Technology Co., Ltd, Xi’an 71009, China

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Figures & Tables(11)

Fig. 1. Schematic of the mode converter.

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Fig. 2. Welding gaps on the mode converter.

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Fig. 3. Contour of magnetic fields in the mode converter without breakdown.

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Fig. 4. Contour of electric fields in the mode converter without breakdown.

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Fig. 5. Electrons distribution and contour of magnetic fields in the mode converter with breakdown, the red points represent the particles.

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Table 1. Patterns of the TE modes on the slice of the output waveguide.
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Table 1. Patterns of the TE modes on the slice of the output waveguide.
TE mode TE₁₁ TE₁₁ TE₂₁ TE₂₁ TE₀₁ TE₃₁ TE₃₁
Cut frequency/GHz 3.542 3.545 5.857 5.881 7.380 8.062 8.062
Pattern

Table 2. Patterns of the TM modes on the slice of the output waveguide.
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Table 2. Patterns of the TM modes on the slice of the output waveguide.
TM mode TM₀₁ TM₁₁ TM₁₁
Cut frequency/GHz 3.542 3.545 5.857
Pattern

Table 3. TE modes composition of the output signal without breakdown.

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Table 3. TE modes composition of the output signal without breakdown.

TE Mode	TE₁₁	TE₁₁	TE₂₁	TE₂₁	TE₀₁	TE₃₁	TE₃₁
Forward	9.7 × 10^–8	5.33 × 10⁹	4.89 × 10⁷	1.83 × 10^–9	3.89 × 10^–9}	318 × 10^–9}	3.72 × 10⁵
Backward	984 × 10^–8	6.25 × 10⁴	1.79 × 10²	3.74 × 10^–8	2.21 × 10^–8	1.77 × 10^–9}	9.85 × 10³

Table 4. TM modes composition of the output signal without breakdown.
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Table 4. TM modes composition of the output signal without breakdown.
TM Mode TM₀₁ TM₁₁ TM₁₁
Forward 1.09 × 10⁷ 7.50 × 10⁷ 5.49 × 10^–9
Backward 8.54 × 10⁴ 5.09 × 10⁴ 1.60 × 10^–8

Table 5. TE modes composition of the output signal with breakdown.
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Table 5. TE modes composition of the output signal with breakdown.
TE Mode TE₁₁ TE₁₁ TE₂₁ TE₂₁ TE₀₁ TE₃₁ TE₃₁
Forward 1.27 × 10² 520 × 10⁹ 5.30 × 10⁷ 2.01 × 10² 2.89 6.59 1.65 × 10⁵
Backward 8.11 × 10^–5 6.24 × 10⁴ 2.03 × 10² 2.52 × 10^–3 1.69 × 10^–4 4.16 × 10^–4 945 × 10³

Table 6. TM modes composition of the output signal with breakdown.
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Table 6. TM modes composition of the output signal with breakdown.
TM Mode TM₀₁ TM₁₁ TM₁₁
Forward 6.48 × 10⁶ 6.76 × 10⁷ 2.0 × 10¹
Backward 3.27 × 10⁴ 5.36 × 10⁴ 3.97 × 10^–4

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Aiping Fang, Shanshan Liang, Yongdong Li, Hongguang Wang, Yue Wang. Modes decomposition in particle-in-cell software CEMPIC[J]. Chinese Physics B, 2020, 29(10):

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