| 1 - 3 |
The 5th International Vacuum Electron Sources Conference - (IVESC 2004) - Beijing, China, September 6-10, 2004 - Preface
Gaertner G, Wang YM, Barratt D, den Engelsen D, Liao FJ, Feng JJ, Li J |
| 4 - 13 |
Electron emission and work function - Past, present and future
Yamamoto S |
| 14 - 18 |
A work function study of ultra-thin alumina formation on NiAl(110) surface
Song WJ, Yoshitake M |
| 19 - 23 |
Two-dimensional Child-Langmuir law of planar diode with finite-radius emitter
Li YD, Wang HG, Liu CL, Sun J |
| 24 - 30 |
Hundred years anniversary of the oxide cathode - A historical review
Gaertner G, den Engelsen D |
| 31 - 41 |
The base metal of the oxide-coated cathode
Poret F, Roquais JM |
| 42 - 49 |
Analytical interfacial studies of double carbonate thermionic oxide cathodes over accelerated operational life
Barber DK, Jenkins SN, Whiting MJ, Baker MA |
| 50 - 58 |
Model of dopant action in oxide cathodes
den Engelsen D, Gaertner G |
| 59 - 63 |
Stretched exponential degradation of oxide cathodes
Weon BM, Je JH |
| 64 - 68 |
Development of new types of oxide cathodes
Liao XH, Wang XX, Zhao QL, Meng MF |
| 69 - 72 |
An improved reservoir oxide cathode
Wang XX, Liao XH, Luo JR, Zhao QL |
| 73 - 79 |
Life-limiting mechanisms in Ba-oxide, Ba-dispenser and Ba-scandate cathodes
Gaertner G, Barratt D |
| 80 - 88 |
Operating model for scandia doped matrix scandate cathodes
Liu W, Zhang K, Wang YM, Pan KX, Gu X, Wang JS, Li J, Zhou ML |
| 89 - 96 |
Emission efficiency optimization of RE2O3 doped molybdenum thermionic cathode by application of pattern recognition method
Wang JS, Liu W, Liu YQ, Zhou ML |
| 97 - 100 |
Preparation and "in situ" analysis of La coated Mo cathodes
Hao SM, Nie ZR, Yang HC, Xi XL |
| 101 - 105 |
Weld techniques for reservoir cathodes
Vancil BK, Wintucky EG |
| 106 - 113 |
Characteristics of scandate-impregnated cathodes with sub-micron scandia-doped matrices
Yuan HQ, Gu X, Pan KX, Wang YM, Liu W, Zhang K, Wang JS, Zhou ML, Li J |
| 114 - 119 |
Scandate cathode for TWT
Shuguang W |
| 120 - 125 |
Correlation of cathode parameters of high power grid tubes with material characteristics of cathode-grid units
Melnikova IP, Polyakov IV, Usanov DA |
| 126 - 129 |
A new dispenser cathode with dual-layer
Li YT, Zhang HL, Liu PK, Zhang MC |
| 130 - 133 |
Emission and surface characteristic of ternary alloy Ir/Re/W-coated impregnated tungsten cathodes
Zhang HL, Liu YW, Zhang MC, Li YT |
| 134 - 138 |
Study on preparation and emission properties of nano-composite W-La2O3 material
Xi XL, Nie ZR, Wang W, Yang HC, Hao SM, Guo YQ, Zuo TY |
| 139 - 145 |
The decline of impregnated cathodes in CRTs
den Engelsen D, Tong LS |
| 146 - 150 |
Aging process of I-cathode with magnetic ion trap
Zhang XB, Lei W, Feng NG, Havekes J, Tong LS, den Engelsen D |
| 151 - 158 |
High current density M-type cathodes for vacuum electron devices
Li J, Yu ZQ, Shao WS, Zhang K, Gao YJ, Yuan HQ, Wang H, Huang KZ, Chen QL, Yan SQ, Cai SL |
| 159 - 163 |
Application of vitreous and graphitic large-area carbon surfaces as field-emission cathodes
Hunt CE, Wang Y |
| 164 - 169 |
Special features of electron sources with CNT field emitter and micro grid
Knapp W, Schleussner D |
| 170 - 176 |
Characteristics of a cold cathode electron source combined with secondary electron emission in a FED
Lei W, Zhang XB, Zhou XD, Zhu ZY, Lou CG, Zhao HP |
| 177 - 181 |
Theoretical analysis of the field enhancement in a two-dimensional triple junction
Chung MS, Choi TS, Yoon BG |
| 182 - 190 |
Analysis of the transverse energy distribution of hopping electrons through a glass funnel
Zhang XB, Lei W, Liu M, Zhang LB, den Engelsen D, Zhou XD, Wang QL |
| 191 - 195 |
Analysis of the carrier concentration for field emission from AlxGa1-N-x
Choi TS, Chung MS |
| 196 - 200 |
Field emission cathodes based on milled carbon fibers
Sheshin EP, Baturin AS, Nikolskiy KN, Tchesov RG, Sharov VB |
| 201 - 204 |
Fabrications of Spindt-type cathodes with aligned carbon nanotube emitters
Ding MQ, Li XH, Bai GD, Feng JJ, Zhang FQ, Liao FJ |
| 205 - 209 |
Atomic-scale field emitter with self-repairable function and thermodynamically stable structure: FEM study on Pd-covered nanopyramids on W < 1 1 1 > tips
Rokuta E, Itagaki T, Miura D, Moriyama T, Ishikawa T, Cho BL, Fu TY, Tsong TT, Oshima C |
| 210 - 214 |
Effect of ageing process on performance of molybdenum field emission arrays
Li XH, Yang CF, Feng JJ, Cai J, Bai GD, Ding MQ, Zhang FQ, Liao FJ |
| 215 - 219 |
Field emission characteristics of oriented-AlN thin film on tungsten tip
Yue SL, Gu CZ, Shi CY, Zhi CY |
| 220 - 224 |
Synthesis and field emission properties of aluminum nitride nanocones
Liu C, Hu Z, Wu Q, Wang XZ, Chen Y, Lin WW, Sang H, Deng SZ, Xu NS |
| 225 - 229 |
Enhanced electron emission from diamond film deposited on pre-seeded Si substrate with nanosized diamond power
Gu CZ |
| 230 - 235 |
Cathode units with a carbon fiber field emitter
Chupina M, Ivanov O, Maslennikov O, Orekhov E |
| 236 - 241 |
Field emission properties of diamond-like carbon films annealed at different temperatures
Li JJ, Gu CZ, Peng HY, Wu HH, Zheng WT, Jin ZS |
| 242 - 244 |
Electrophoretic deposition and field emission properties of patterned carbon nanotubes
Zhao HF, Song H, Li ZM, Yuan G, Jin YX |
| 245 - 248 |
Field electron emission from branched nanotubes film
Zeng BQ, Tian SK, Yang ZH |
| 249 - 253 |
Fabrication and characterization of high-current-density carbon-nanotube cold cathodes
Zhu CH, Lou CG, Lei W, Zhang XB |
| 254 - 257 |
New method to fabricate field-emission cathode of carbon nanotubes
Lou CG, Zhang XB, Lei W, Qi C |
| 258 - 261 |
Electron field emission properties of carbon nanotubes-deposited flexible film
Ma HZ, Zhang L, Zhang JJ, Zhang LW, Yao N, Zhang BL |
| 262 - 266 |
Investigations of the multi-pulsed emission characteristics of velvet
Xia LS, Zhang KZ, Shi JS, Zhang LW |
| 267 - 272 |
Angle-dependent XPS study of the mechanisms of "high-low temperature" activation of GaAs photocathode
Du XQ, Chang BK |
| 273 - 277 |
The variation of spectral response of transmission-type GaAs photocathode in the seal process
Liu L, Chang BK, Du YJ, Qian YS, Gao P |
