| 1. | Getter-ion pumps decrease chamber pressure by chemical reaction of residual gases with an evaporated metal .
吸气离子泵通过剩余气体与蒸发的金属之间的化学反应减少了内腔的压力。 |
| 2. | Recent electronic means of pumping using low temperature sorption techniques and getter-ion pumps have been introduced .
现在已经采用了低温吸附技术和吸气离子泵的近代电子抽气设备。 |
| 3. | Newly - developed miniaturized compound sputtering ion pump
微型复合溅射离子泵的设计研究 |
| 4. | Vacuum technology - acceptance specifications for getter ion pumps
真空技术.溅射离子泵验收规范 |
| 5. | Vacuum technology - sputter - ion pumps - measurement of performance characteristics
真空技术.喷射离子泵.功能特性的测定 |
| 6. | Tantalum - titanium ion pump
钽钛离子泵 |
| 7. | Possible sources of measurement error were analyzed , and the technical specifications of the pump were experimentally evaluated
实验测试了微型溅射离子泵的各项性能指标,为进一步研制提供了依据。 |
| 8. | Product range includes diaphragm , piston , peristaltic , rotary vane , linear , and vibratory armature pumps for medical , analytical , environmental , and automotive uses
-研发与制造旋片式真空泵往复式真空泵冷阴极溅射离子泵爪式无油真空泵等系列产品。 |
| 9. | Seven test points are available , which provide a low voltage proportional to the five electrode voltages , as well as to the photocathode and the getter currents ( see chapter 5 )
七个测试点可以提供一个与五个电极电压和光电阴极电流及离子泵电流成比例的低压(看第5章) 。 |
| 10. | The testing technique and system of the newly developed , miniaturized sputtering ion pump with low pumping speed has been developed in accordance with the standards formulated by machine industry
摘要本文介绍了小抽速微型溅射离子泵的性能测试系统和参考机械行业标准确定的测试方法,探讨了测量结果误差来源。 |
