Electron bunching in a Penning trap and accelerating processfor CO<sub>2</sub> gas mixture active medium

TIAN Xiu-Fang; WU Cong-Feng; JIA Qi-Ka

doi:10.1088/1674-1137/39/12/127005

Chinese Physics C> 2015, Vol. 39> Issue(12) : 127005 DOI: 10.1088/1674-1137/39/12/127005

Electron bunching in a Penning trap and accelerating processfor CO₂ gas mixture active medium

1.
National Synchrotron Radiation Laboratory, University of Science and Technology of China, Hefei 230029, China

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Abstract：
In PASER (particle acceleration by stimulated emission of radiation), in the presence of an active medium incorporated in a Penning trap, moving electrons can become bunched, and as they get enough energy, they escape the trap forming an optical injector. These bunched electrons can enter the next PASER section filled with the same active medium to be accelerated. In this paper, electron dynamics in the presence of a gas mixture active medium incorporated in a Penning trap is analyzed by developing an idealized 1D model. We evaluate the energy exchange occurring as the train of electrons traverses into the next PASER section. The results show that the oscillating electrons can be bunched at the resonant frequency of the active medium. The influence of the trapped time and population inversion are analyzed, showing that the longer the electrons are trapped, the more energy from the medium the accelerated electrons get, and with the increase of population inversion, the decelerated electrons are virtually unchanged but the accelerated electrons more than double their peak energy values. The simulation results show that the gas active medium needs a lower population inversion to bunch the electrons compared to a solid active medium, so the experimental conditions can easily be achieved.
- PASER ,
- Penning trap ,
- active gas mixture medium ,
- electron bunching

References

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TIAN Xiu-Fang, WU Cong-Feng and JIA Qi-Ka. Electron bunching in a Penning trap and accelerating processfor CO₂ gas mixture active medium[J]. Chinese Physics C, 2015, 39(12): 127005. doi: 10.1088/1674-1137/39/12/127005

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Received: 2014-08-04

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Supported by National Natural Science Foundation of China (10675116) and Major State Basic Research Development Programme of China (2011CB808301)

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通讯作者: 陈斌, bchen63@163.com

1.
沈阳化工大学材料科学与工程学院沈阳 110142

Electron bunching in a Penning trap and accelerating processfor CO₂ gas mixture active medium

Corresponding author: WU Cong-Feng,

1. National Synchrotron Radiation Laboratory, University of Science and Technology of China, Hefei 230029, China

Received Date: 2014-08-04

Available Online: 2015-12-20

Fund Project: Supported by National Natural Science Foundation of China (10675116) and Major State Basic Research Development Programme of China (2011CB808301)

Abstract: In PASER (particle acceleration by stimulated emission of radiation), in the presence of an active medium incorporated in a Penning trap, moving electrons can become bunched, and as they get enough energy, they escape the trap forming an optical injector. These bunched electrons can enter the next PASER section filled with the same active medium to be accelerated. In this paper, electron dynamics in the presence of a gas mixture active medium incorporated in a Penning trap is analyzed by developing an idealized 1D model. We evaluate the energy exchange occurring as the train of electrons traverses into the next PASER section. The results show that the oscillating electrons can be bunched at the resonant frequency of the active medium. The influence of the trapped time and population inversion are analyzed, showing that the longer the electrons are trapped, the more energy from the medium the accelerated electrons get, and with the increase of population inversion, the decelerated electrons are virtually unchanged but the accelerated electrons more than double their peak energy values. The simulation results show that the gas active medium needs a lower population inversion to bunch the electrons compared to a solid active medium, so the experimental conditions can easily be achieved.

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Electron bunching in a Penning trap and accelerating processfor CO₂ gas mixture active medium

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Electron bunching in a Penning trap and accelerating processfor CO₂ gas mixture active medium

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Electron bunching in a Penning trap and accelerating processfor CO2 gas mixture active medium

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Electron bunching in a Penning trap and accelerating processfor CO₂ gas mixture active medium

Electron bunching in a Penning trap and accelerating processfor CO₂ gas mixture active medium