Ir-Ce 合金阴极及其应用研究  被引量:1

THE IRIDIUM CERIUM ALLOY CATHODE AND ITS APPLICATION

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作  者:李泉凤[1] 肖钧[1] 胡玉民[1] 

机构地区:[1]清华大学工程物理系

出  处:《原子能科学技术》1997年第4期345-350,共6页Atomic Energy Science and Technology

基  金:核工业科学基金

摘  要:重点研究了粉末冶金法制备Ir-Ce(铱-铈)合金阴极过程中压制压力和烧结温度对发射性能的影响,建立起了一套稳定的制备工艺。试验得到Ir-Ce掺W阴极在1753K时的发射电流密度达12.4A/cm2,电流密度保持为1.7A/cm2,发射试验稳定达150h。从机理上验证了它是一种高温大发射电流的发射体。试验还表明Ir-Ce阴极具有良好的抗中毒能力。作为应用研究,测量了该阴极在热阴极微波电子枪中的发射性能,微波腔场强约10MV/m,工作温度1913K,零场发射电流密度为10A/cm2,最大发射电流密度达21A/cm2,在2020K时计算零场发射电流密度可达42A/cm2。The research is focused on the influence of pressing pressure and sintering temperature on the emission properties of Ir Ce alloy cathode made with powder metallurgy fabrication. A technique is developed to fabricate the alloy cathode.The emission current density of the cathode can reach 12.4 A/cm 2.However,only a current density of 1.7 A/cm 2 can sustain a stable measurement for 150 hours.The relationship between emission current and heating temperature of the cathode shows that the cathode is poisoning resistant and has good emission capacity at high heating temperature,which means that when the cathode temperature T is above 1773 K,the work function value decreases with increasing temperature.It is noted that maximum emission current can reach 21 A/cm 2 in the FR gun and the zero field emission current density J 0= 10 A/cm 2 . The calculation shows that J 0 can reach 42 A/cm 2 at T =2020 K.Finally,the application of Ir Ce alloy cathode is discussed.

关 键 词:合金阴级 发射电流密度 热阴极 微波电子枪 

分 类 号:TN103[电子电信—物理电子学]

 

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