CHARGE TRANSFER BETWEEN GROUND-STATE Si~(3+) AND He AT ELECTRON-VOLT ENERGIES

Z. FANG; VICTOR H. S. KWONG

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CHARGE TRANSFER BETWEEN GROUND-STATE Si~(3+) AND He AT ELECTRON-VOLT ENERGIES

机译：Si〜（3+）与He的电子伏特电荷转移

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The charge-transfer rate coefficient for the reaction Si~(3+)(3s~2S) + He → products is measured by means of a combined technique of laser ablation and ion storage. A cylindrical radio-frequency ion trap was used to store Si~(3+) ions produced by laser ablation of solid silicon targets. The rate coefficient of the reaction was derived from the decay rate of the ion signal. The measured rate coefficient is 6.27_(-0.52)~(+0.68) x 10~(-10) cm~3 s~(-1) at T_(equiv) = 3.9 x 10~3 K. This value is about 30% higher than the Landau-Zener calculation of Butler & Dalgarno and is larger by about a factor of 3 than the recent full quantal calculation of Honvault et al.

机译：Si〜（3 +）（3s〜2S）+ He→产物的电荷转移速率系数是通过激光烧蚀和离子存储的组合技术测量的。圆柱形射频离子阱用于存储通过激光烧蚀固体硅靶产生的Si〜（3+）离子。反应的速率系数是从离子信号的衰减速率得出的。在T_（equiv）= 3.9 x 10〜3 K时，测得的速率系数为6.27 _（-0.52）〜（+0.68）x 10〜（-10）cm〜3 s〜（-1）。该值约为30比Butler＆Dalgarno的Landau-Zener计算值高出％，并且比Honvault等人的最新全量化计算值高出约3倍。

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《The Astrophysical journal》 |1997年第1pt1期|p.527-530|共4页
作者
Z. FANG; VICTOR H. S. KWONG;
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专利

1. Charge Transfer between Ground-State Si~3+ and He at Electron-Volt Energies [J] . Z. FANG, VICTOR H. S. KWONG The Astrophysical journal . 1997,第1期

机译：电子伏特能量下，基态Si〜3 +与He之间的电荷转移
2. Charge Transfer between Ground-State Si3+ and He at Electron-Volt Energies [J] . Z. Fang1, Victor H. S. Kwong1 The Astrophysical journal . 1997,第1期

机译：电子伏特能量下基态Si3 +和He之间的电荷转移
3. Measurement of charge-transfer-rate coefficients of ground-state He+ with N-2 and CH4 at electron-volt energies - art. no. 042709 [J] . Fang Z., Kwong VHS., Chen D. Physical Review, A. Atomic, molecular, and optical physics . 2000,第4期

机译：N-2和CH4在电子伏特能量下测量基态He +的电荷转移速率系数-艺术。没有。 042709
4. Emission spectroscopy and energy transfer in Tm~(3+), Tm~(3+)-Ho~(3+) and Tm~(3+)-Yb~(3+) doped tellurite fibers [C] . Billy Richards, Shaoxiong Shen, Animesh Jha Electro-Optical Remote Sensing II; Proceedings of SPIE-The International Society for Optical Engineering; vol.6396 . 2006

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5. Supercollision Energy Transfer Studies in Single Collisions between Vibrationally Hot Benzene-like Molecules and Ground-state Bath Molecules: The Effect of Physical Properties of Donor and Bath Molecules on Supercollision Energy Transfer [D] . Kim, Kilyoung 2011

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6. Ground-state oxygen holes and the metal–insulator transition in the negative charge-transfer rare-earth nickelates [O] . Valentina Bisogni, Sara Catalano, Robert J. Green, -1

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7. Charge Transfer Between Ground-State Si(3+) and He at Electron-Volt Energies [O] . Fang Z., Kwong Victor H. S. 1997

机译：电子伏特能量下的基态Si（3+）与He之间的电荷转移
8. Charge Transfer Between Ground-State Si(3+) and He at Electron-Volt Energies [R] . Fang, Z. , Kwong, V. H. S. 1997

机译：电子 - 伏特能量下基态si（3+）与He之间的电荷转移

CHARGE TRANSFER BETWEEN GROUND-STATE Si~(3+) AND He AT ELECTRON-VOLT ENERGIES

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