论文信息 - Secondary electron yield measurements from materials with application to collectors of high-power microwave devices

Secondary electron yield measurements from materials with application to collectors of high-power microwave devices

An experimental test facility has been established for measuring the secondary electron yield (SEY) of materials thought to be suitable for low yield vacuum electronic applications such as collectors in high-power microwave (HPM) tubes. Experiments can be broadly divided into two energy-regimes: a high-energy (1-50 keV) and a low-energy (10 eV-1 keV) regime. Measurements of SEY at high energies are presented for the following materials: copper, titanium, and Poco graphite. Observation of time-dependent SEY behavior in these samples suggests that surface processes play an important role during measurements. In addition, SEY at low energies and as a function of the angle of incidence of primary electrons has been measured for plasma sprayed boron carbide (PSBC). The experimental results presented here are benchmarked with existing SEY data in the literature, empirically and to first principle formulae

[1] V. Henrich. Fast, Accurate Secondary‐Electron Yield Measurements at Low Primary Energies , 1973 .

[2] Hajo Bruining,et al. Physics and applications of secondary electron emission , 1954 .

[3] R. M. Vaughan,et al. Secondary emission formulas , 1993 .

[4] B. Henrist,et al. The variation of the secondary electron yield and of the desorption yield of copper under electron bombardment : Origin and impact on the conditioning of the LHC , 2002 .

[5] Gerald F. Dionne,et al. Origin of secondary‐electron‐emission yield‐curve parameters , 1975 .

[6] R. Lye,et al. Theory of Secondary Emission , 1957 .

[7] J. Vaughan,et al. A new formula for secondary emission yield , 1989 .

[8] Manfred Thumm,et al. A new approach for a multistage depressed collector for gyrotrons , 2000 .

[9] E. W. McDaniel,et al. Collision phenomena in ionized gases , 1964 .

[10] O. Hachenberg,et al. Secondary Electron Emission from Solids , 1959 .

[11] R. Schmitz,et al. SECONDARY ELECTRON EMISSION PROPERTIES , 1996 .

[12] Robert J. Barker,et al. High-power microwave sources and technologies , 2001 .

[13] P. Ramins,et al. Improvements in MDC and TWT overall efficiency through the application of carbon electrode surfaces , 1986, IEEE Transactions on Electron Devices.

[14] E. M. Baroody. A Theory of Secondary Electron Emission from Metals , 1950 .