| 777 - 778 |
Special issue on vacuum microelectronics - Preface
Jensen KL, Marrese CM |
| 779 - 808 |
Low-macroscopic-field electron emission from carbon films and other electrically nanostructured heterogeneous materials: hypotheses about emission mechanism
Forbes RG |
| 809 - 816 |
Theoretical analysis of field emission data
Modinos A |
| 817 - 829 |
Theoretical study of the field distributions in a linear electrohydrodynamic charged particle source for space applications
He J, Cutler PH, Miskovsky NM, Kazes E, Chung MS, Mitterauer J |
| 831 - 840 |
Photon assisted field emission from a silicon emitter
Jensen KL, Lau YY, McGregor D |
| 841 - 851 |
An electron emission model for use with 3D electromagnetic finite element simulation
Knox AR, Asenov A, Lowe AC |
| 853 - 856 |
Investigation of electric field at the cathode with fractal structure of the surface
Solntsev VA, Rodionov AN |
| 857 - 863 |
The enhancement factor and the characterization of amorphous carbon field emitters
Edgcombe CJ, Valdre U |
| 865 - 869 |
Statistical models of fluctuation phenomena in field emission
Anikin VM, Goloubentsev AF |
| 871 - 877 |
Properties of electron field emission from a fractal surface
Isayeva OB, Eliseev MV, Rozhnev AG, Ryskin NM |
| 879 - 886 |
Analytic modelling of the thin-film field-emission triode
Garner DM, Amaratunga GAJ |
| 887 - 892 |
Temperature field simulation in low-voltage vacuum displays
Strel'tsov AV, Bukesov SA |
| 893 - 914 |
Field emission from carbon nanotubes: the first five years
Bonard JM, Kind H, Stockli T, Nilsson LA |
| 915 - 919 |
Band gap structure and electron emission property of chemical-vapor-deposited diamond films
Liu JJ, Chiu DYT, Morton DC, Kang DH, Zhirnov VV, Hren JJ, Cuomo JJ |
| 921 - 928 |
Electron field emission from nanostructured diamond and carbon nanotubes
Zhu W, Bower C, Kochanski GP, Jin S |
| 929 - 944 |
Properties and characterization of chemical vapor deposition diamond field emitters
Groning O, Nilsson LO, Groning P, Schlapbach L |
| 945 - 948 |
Electronic structure and field emission from amorphous carbon nitride films
Xanthakis JP |
| 949 - 956 |
Field emission properties of different forms of carbon
Merkulov VI, Lowndes DH, Baylor LR, Kang S |
| 957 - 962 |
Field emission from diamond coated tungsten tips
Tondare VN, Pradeep N, Bambaladi DD, Godbole VP, Joag DS |
| 963 - 976 |
Field emission displays: a critical review
Talin AA, Dean KA, Jaskie JE |
| 977 - 986 |
Field emission magnetic sensors based on focusing devices
Marques MI, Serena PA, Nicolaescu D, Correia A |
| 987 - 996 |
Incorporating consumer-priced field-emitting inks into arrays of triode devices
Burden AP, Bishop HE, Brierley M, Friday JM, Hood C, Jones PGA, Khazov AY, Lee W, Riggs RJ, Shaw VL, Taylor W, Tuck RA |
| 997 - 1001 |
Study of porous silicon, silicon carbide and DLC coated field emitters for pressure sensor application
Kleps I, Angeleseu A, Samfirescu N, Gil A, Correia A |
| 1003 - 1007 |
Fabrication and characterization of singly addressable arrays of polysilicon field-emission cathodes
Chubun NN, Chakhovskoi AG, Hunt CE, Hajra M |
| 1009 - 1016 |
Geometry and element composition of a nanoscale field emission array formed by self-organization in porous anodic aluminum oxide
Tatarenko NI, Mozalev AM |
| 1017 - 1024 |
Field emission from amorphous semiconductors
Carey JD, Silva SRP |
| 1025 - 1031 |
Solid-state field-controlled emitters: a thin-film technology solution for industrial cathodes
Binh VT, Dupin JP, Adessi C, Semet V |
| 1033 - 1038 |
A simple fabrication method for tunnel junction emitters
van Aken RH, Janssen MAPM, Hagen CW, Kruit P |
| 1039 - 1047 |
Performance of nanocrystalline graphite field emitters
Busta HH, Espinosa RJ, Rakhimov AT, Suetin NV, Timofeyev MA, Bressler P, Schramme M, Fields JR, Kordesch ME, Silzars A |
| 1049 - 1054 |
A study of liquid metal alloy ion sources for the production of ions of interest in the microelectronics industry
Ganetsos T, Mair GLR, Bischoff L, Teichert J, Kioussis D |
