Buffer gas consumption in rubidium discharge lamps

机译：discharge放电灯中的缓冲气体消耗

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We present a physics-based empirical model of a newly discovered potential failure mode of rubidium atomic clocks: exhaustion of the noble gas buffer in the rubidium discharge lamp. We attribute the buffer gas loss to noble gas ion capture (NIC) by the glass walls of the lamp. The noble gas ions are produced by multistep ionization in collisions with discharge electrons. The model explains the observed pressure dependence of the buffer gas loss rate, and predicts an extremely high sensitivity of the loss rate to discharge electron temperature. That prediction is confirmed by comparison with experimental data. The model needs further work to be fully validated. We propose that longest lamp life can be achieved by minimizing noble gas light emission while keeping Rb light emission at the level required to achieve the desired atomic clock performance.

机译：我们提出了一种新发现的atomic原子钟潜在失效模式的基于物理学的经验模型：:放电灯中稀有气体缓冲器的耗尽。我们将缓冲气体的损失归因于灯的玻璃壁导致的惰性气体离子捕获（NIC）。惰性气体离子是在与放电电子碰撞的过程中通过多步电离产生的。该模型解释了观察到的缓冲气体损失率的压力依赖性，并预测了损失率对放电电子温度的极高灵敏度。通过与实验数据进行比较可以确认该预测。该模型需要进一步的工作才能得到充分验证。我们建议，通过使稀有气体的发光最小化，同时将Rb发光保持在达到所需原子钟性能所需的水平上，可以实现最长的灯寿命。

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来源
《2015 Joint Conference of the IEEE International Frequency Control Symposium amp; European Frequency and Time Forum》|2015年|37-46|共10页
会议地点 Denver CO(US)
作者
Jaduszliwer Bernardo; Huang Michael; Camparo James C.;
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作者单位

Phys. Sci. Labs., Aerosp. Corp., El Segundo, CA, USA;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Buffer gas consumption; Discharge lamps; Rubidium clocks;

机译：缓冲气体消耗量；放电灯；钌钟;

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专利

1. Investigation on the Minimum Maintenance Discharged Power of a Low-Frequency Driven Electrodeless Compact Fluorescent Lamp - Buffer Gas and Driving Frequency Dependence [J] . Takeshi ARAKAWA, Katsushi SEKI, Koichi KATASE, Journal of Light & Visual Environment . 2006,第1期

机译：低频驱动无电极紧凑型荧光灯的最低维护放电功率的研究-缓冲气体和驱动频率的相关性
2. Investigation on the Minimum Maintenance Discharged Power of a Low-Frequency Driven Electrodeless Compact Fluorescent Lamp - Buffer Gas and Driving Frequency Dependence [J] . Takeshi ARAKAWA, Katsushi SEKI, Koichi KATASE, Journal of Light & Visual Environment . 2006,第1期

机译：低频驱动无电极紧凑型荧光灯的最低维护放电功率的研究-缓冲气体和驱动频率的相关性
3. 254 nm Radiant Efficiency and Spectral Lines of High Output T6 Low Pressure Mercury Discharge Lamps with Neon-Argon Buffer Gases [J] . Haojun ZHANG, Jie LIU, Qiuyi HAN, Journal of Light & Visual Environment . 2013,第2a3期

机译：高输出T6低压汞放电灯和氖氩气的254 nm辐射效率和谱线
4. Buffer gas consumption in rubidium discharge lamps [C] . Jaduszliwer B., Huang M., Camparo J.C. IEEE International Frequency Control Symposium . 2015

机译：铷放电灯中的缓冲气体消耗
5. Advanced high-frequency electronic ballasting for gas discharge lamps. [D] . Moussaoui, Zaki. 2003

机译：用于气体放电灯的高级高频电子镇流器。
6. Irradiation of silver and agar/silver nanoparticles with argon oxygen glow discharge plasma and mercury lamp [O] . Mahmoud M Ahmad, Essam A Abdel-Wahab, A A El-Maaref, -1

机译：用氩气氧气辉光放电等离子体和汞灯照射银和琼脂/银纳米颗粒
7. 254 nm Radiant Efficiency and Spectral Lines of High Output T6 Low Pressure Mercury Discharge Lamps with Neonndash;Argon Buffer Gases [O] . Haojun Zhang, Jie Liu, Qiuyi Han, 2013

机译：254 nm辐射效率和高输出T6低压汞放电灯的谱线，具有霓虹氩缓冲气体
8. Improved Rubidium Consumption Model for Discharge Lamps Used in Rubidium Frequency Standards [R] . Cook, R. A., Frueholz, R. P. 1989

机译：用于铷频率标准的放电灯改进铷消耗模型

Buffer gas consumption in rubidium discharge lamps

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