Applied Surface Science 2003: Vol 215 Index PDF
Preview Applied Surface Science 2003: Vol 215 Index
ELSEVIER Applied Surface Science 215 (2003) I-III www.elsevier.com locate/apsusc Author Index Anikin, V.M., Yu.A. Barulina and A.F. Golou- Ding, M., see Li, X. 215 (20032)4 9 bentsev, Regression equations modelling Ding, Y.G., see Liu, G.Y. 215 (20032)0 9 diffusion processes 215 (2003) 185 Djubua, B.Ch., and O.V. Polivnikova, Stratum- like structured metal alloy cathode 215 (2003) 242 Bai, G., see Li, X. 215 (2003) 249 Du, Y., see Li, X. 215 (20032)4 9 Baiburin, V._B., U.P. Volkov, S.V. Semenov and Dyuzhev, G.A., see Fursey, G.N. 215 (2003) 135 A.S. Semenov, Scanning electron and tun- neling microscopy of palladium—barium Emel’ yanov, V.1., O.Y. Maslennikov and P.N. emitters 215 (2003) 269 Roukhlyada, Determination of the latent Baik, Y.J., see Lee, $.W. 215 (2003) 265 heat of phase transitions in ruthenium by Baker, M.A., see Jenkins, S.N. 215 (2003) 78 means of a thermionic microscope 215 (2003) 96 Bakhtizin, R.Z., see Ghots, S.S. 215 (2003) 105 Evtukh, A.A., N.1. Klyui, V.G. Litovchenko, Barber, D.K., see Jenkins, S.N. 215 (2003) 78 Yu.M. Litvin, O.B. Korneta, V.M. Puzikov Barratt, D., see Gaertner, G. 215 (2003) 72 and A.V. Semenov, Peculiarities of field Barratt, D.S., and G. Gaertner, Recent devel- emission from silicon carbide films 215 (2003) 237 opments in oxide cathode research for CRT Evtukh, A.A., see Litovchenko, V.G. 215 (2003) 160 applications 215 (2003) 65 Barulina, Yu.A., see Anikin, V.M. 215 (2003) 185 Feng, J., see Li, X. 215 (2003) 249 Baturin, A.S., see Bormashov, V.S. 215 (2003) 178 Fursey, G.N., Field emission in vacuum micro- Baturin, A.S., see Kurnosov, D.A. 215 (2003) 232 electronics 215 (2003) 113 Baturin, A.S., see Leshukov, M. Yu. 215 (2003) 260 Fursey, G.N., D.V. Novikov, G.A. Dyuzhev, Bayburin, V.B., A.A. Terentiev, V1. Vislov, A.V. Kotcheryzhenkov and P.O. Vassiliev, A.B. Levande, LK. Guriev and A.A. The field emission from carbon nanotubes 215 (2003) 135 Sysuev, Computer simulation of magnetron Fursey, G.N., M.A. Polyakov, L.A. Shirochin devices 215 (2003) : and A.N. Saveliev, Liquid carbon surface Belobrov, PL. L.A. Bursill, K.1. Maslakov and during explosive emission 215 (2003) 286 A.P. Dementjev, Electron spectroscopy of nanodiamond surface states 215 (2003) Gaertner, G., D. Raasch, D. Barratt and S. Bernatskii, D.P.. A.V. Chernyshev and V.L Jenkins, Accelerated life tests of CRT oxide Ivanov-Omskii, Study of emission centers cathodes 215 (2003) 72 in amorphous carbon (a-C:H) by field elec- Gaertner, G., see Barratt, D.S. 215 (2003) 65 tron and field desorption microscopy 215 (2003) 222 Gaertner, G., see Zhang, X. 215 (2003) 25 Bhat, K.S., see Ravi, M. 215 (2003) 33 Gao, Y., see Wang, J. 215 (20032)7 3 Bormashov, V.S.. K.N. Nikolski, A.S. Baturin Ghots, S.S., and R.Z. Bakhtizin, Model of and E.P. Sheshin, Prediction of field emitter m-level low-frequency current fluctuations cathode lifetime based on measurement of in metal thermionic cathodes 215 (2003) 105 /-V curves 215 (2003) 178 Glukhova, O.E., A.I. Zhbanov, LG. Torgashov, Bugaev, A.S., see Kurnosov, D.A. 215 (2003) 232 N.L Sinitsyn and G.V. Torgashov, Ponder- Bulakhov, S.Yu., see Popov, M.O. 215 (2003) 253 omotive forces effect on the field emission Bursill, L.A., see Belobrov, P.L. 215 (2003) 169 of carbon nanotube films 215 (2003) 149 Goloubentsev, A.F., see Anikin, V.M. 215 (2003) 185 Chadaev, N.N., see Leshukov, M. Yu. 215 (2003) 260 Goncharuk, N.M., see Litovchenko, V.G. 215 (2003) 160 Chen, Q., see Li, J. 215 (2003) 49 Gulyaev, Yu.V., N.1. Sinitsyn, G.V. Torgashov Chen, Q., see Shao, W. 215 (2003) 54 and S.G. Saveliev, Fundamental and Cheng, S.F., see Liu, G.Y. 215 (2003) 209 applied directions of field emission electro- Chernyshev, A.V., see Bernatskii, D.P. 215 (2003) 222 nics using nanocluster carbon materials 215 (2003) 141 Gulyaev, Yu.V., see Sinitsyn, N.1. 215 (2003) 310 Dementjev, A.P., see Belobrov, P.I. 215 (2003) 169 Gulyaev, Yu.V., see Zakharchenko, Yu.F. 215 (2003) 280 doi: 10.1016/S0169-4332(03)00737-2 Author Index Gundobin, G.S., see Karzhavin, LA. 215 (2003) 291 Li, X., C. Yang, G. Bai, F. Zhang, F. Liao, J. Guriev, I.K., see Bayburin, V.B. 215 (2003) 301 Feng, M. Ding and Y. Du, Investigation of FEAs applied in vacuum electron gun 215 (2003) 249 Hangfu, LJ., see Liu, G-Y. 215 (2003) 209 Liao, F., see Li, X. 215 (2003) 249 Hartnagel, H., see Litovchenko, V.G. 215 (2003) 160 Litovchenko, V.G., A.A. Evtukh, Yu.M. Litvin, N.M. Goncharuk, H. Hartnagel, O. Yilma- Ivanov-Omskii, V.I., see Bernatskii, D.P. 215 (2003) 222 zoglu and D. Pavlidis, Peculiarities of the electron field emission from quantum-size structures 215 (2003) 160 Jenkins, S., see Gaertner, G. 215 (2003) 72 Litovchenko, V.G., see Evtukh, A.A. 215 (2003) 237 Jenkins, S.N., D.K. Barber, M.J. Whiting and Litvin, Yu.M., see Evtukh, A.A. 215 (2003) 237 M.A. Baker, Preliminary results on the Litvin, Yu.M., see Litovchenko, V.G. 215 (2003) 160 chemical characterisation of the cathode Liu, G.Y., D.Y. Zhong, S.H. Xia, S.F. Cheng, nickel—emissive layer interface in oxide Y.G. Ding, YJ. Lu, YJ. Shao, H.-Y. Li, LJ. cathodes 215 (2003) 78 Hangfu and E.G. Wang, CNTs grown on the Jeon, D., see Ko, Y.C. 215 (2003) 228 surface of various materials by large Jeon, D., see Lee, S.W. 215 (2003) 265 volume MP-CVD for VME applications 215 (2003) 209 Liu, J., see Wang, J. 215 (2003) 273 Kang, CJ., see Lee, S.W. 215 (2003) 265 Lu, YJ., see Liu, G.Y. 215 (2003) 209 Karpov, A.V., see Popov, M.O. 215 (2003) 253 L'vov, S.G., see Kukovitsky, E.F. 215 (2003) 201 Karzhavin, 1.A., B.Z. Neyman, G.S. Gundobin, Lyashenko, D.A., see Obraztsov, A.N. 215 (2003) 214 VI. Vislov, A.V. Lashenko and A.B. Levande, A study of noise and collateral Maslakov, K.L., see Belobrov, P.I. 215 (2003) 169 phenomena observed in central-cathode Maslennikov, O.Y., see Emel’ yanov, V.I. 215 (2003) %6 magnetron devices 215 (2003) 291 Maslennikov, O.Y., see Kruglenya, P.A. 215 (2003) 101 Klyui, N.1., see Evtukh, A.A. 215 (2003) 237 Melnikova, L.P.. V.G. Vorozheikin and D.A. Ko, Y.C., and D. Jeon, Field emission influ- Usanov, Correlation of emission capability enced by residual gas and passivation of and longevity of dispenser cathodes with field emitters by diamond coating 215 (20032)2 8 characteristics of tungsten powders 215 (2003) 59 Korneta, O.B., see Evtukh, A.A. 215 (20032)3 7 Monterrin, A., see Roquais, J.M. 215 (2003) 5 Kotcheryzhenkov, A.V., see Fursey, G.N. 215 (2003) 135 Kruglenya, P.A.. and O.Y. Maslennikov, Neyman, B.Z., see Karzhavin, LA. 215 (2003) 291 Advanced structure of cathode for gas dis- Nie, Z., see Yang, J. 215 (2003) 87 charge lamp of super high pressure 215 (2003) 101 Nikolski, K.N., see Bormashov, V.S. 215 (2003) 178 Kukovitsky, E.F.. S.G. L’vov, N.A. Sainov and V.A. Shustov, CVD growth of carbon nano- Nikolski, K.N., see Kurnosov, D.A. 215 (2003) 232 Novikov, D.V., see Fursey, G.N. 215 (2003) 135 tube films on nickel substrates 215 (2003) 201 Kurnosov, D.A., A.S. Baturin, A.S. Bugaev, K.N. Nikolski, R.G. Tchesov and E.P. Obraztsov, A.N., A.P. Volkov, Al.A. Zakhidov, Sheshin, Influence of the interelectrode D.A. Lyashenko, Yu.V. Petrushenko and distance in electrophoretic cold cathode O.P. Satanovskaya, Field emission charac- fabrication on the emission uniformity 215 (2003) 232 teristics of nanostructured thin film carbon materials 215 (2003) 214 Lashenko, A.V., see Karzhavin, 1A. 215 (2003) 291 le Doze, R., see Roquais, J.M. 215 (2003) 5 Pavlidis, D., see Litovchenko, V.G. 215 (2003) 160 Lee, S.W., YJ. Baik, C.J. Kang and D. Jeon, Petrushenko, Yu.V., see Obraztsov, A.N. 215 (2003) 214 Suppression of secondary electrons from Polivnikova, O.V., see Djubua, B.Ch. 215 (2003) 242 diamond by whisker formation 215 (2003) 265 Polyakov, M.A., see Fursey, G.N. 215 (2003) 286 Leshukov, M.Yu., A.S. Baturin, N.N. Chadaev Popov, M.O., S.Yu. Bulakhov, A.V. Karpov, and E.P. Sheshin, Characterizations of light S.A. Shiriaev, E.N. Skorokhodov and sources with carbon fiber cathodes 215 (2003) 260 A.L. Suvorov, Influence of parameters of Levande, A.B., see Bayburin, V.B. 215 (2003) 301 field-emission cathodoluminescence light Levande, A.B., see Karzhavin, LA. 215 (2003) 291 sources on their technical properties 215 (20032)5 3 i, H., see Wang, J. 215 (2003) 38 Poret, F., see Roquais, J.M. 215 (2003) 5 i, H., see Wang, J. 215 (2003) 273 Puzikov, V.M., see Evtukh, A.A. 215 (20032)3 7 . HLY., see Liu, G.Y. 215 (2003) 209 i, J., S. Yan, W. Shao, Q. Chen and M. Zhu, Raasch, D., see Gaertner, G. 215 (2003) 72 Investigation and application of impreg- Ravi, M., and K.S. Bhat, Estimation of barium nated scandate cathodes 215 (2003) 49 evaporation rate from emission measure- i, J., see Shao, W. 215 (2003) 54 ment of dispenser cathodes 215 (2003) 33 Author Index Ricaud, J.L., see Roquais, J.M. 215 (2003) § Vancil, B.K., and E.G. Wintucky, Miniature Roquais, J.M., F. Poret, R. le Doze, J.L. Ricaud, reservoir cathode—an update 215 (2003) 18 A. Monterrin and A. Steinbrunn, Barium Vassiliev, P.O., see Fursey, G.N. 215 (20031)3 5 depletion study on impregnated cathodes Vislov, V.I., see Bayburin, V.B. 215 (2003) 301 and lifetime prediction 215 (2003) 5 Vislov, V.I., see Karzhavin, LA. 215 (2003) 291 Roukhlyada, P.N., see Emel’ yanov, V.I. 215 (2003) 96 Volkov, A.P., see Obraztsov, A.N. 215 (20032)1 4 Volkov, U.P., see Baiburin, V.B. 215 (20032)6 9 Sainov, N.A., see Kukovitsky, E.F. 215 (2003) 201 Vorozheikin, V.G., see Melnikova, LP. 215 (2003) 59 Satanovskaya, O.P., see Obraztsov, A.N. 215 (2003) 214 Saveliev, A.N., see Fursey, G.N. 215 (2003) 286 Wang, E.G., see Liu, G.Y. 215 (2003) 209 Saveliev, S.G., see Gulyaev, Yu.V. 215 (2003) 141 Wang, J., H. Li, J. Liu, Y. Wang, M. Zhou, Y. Saveliev, S.G., see Zakharchenko, Yu.F. 215 (2003) 280 Gao, S. Tao and J. ZhaA nstudgy o,f s ec- Semenov, A.S., see Baiburin, V.B. 215 (2003) 269 ondary electron emission properties of the Semenov, A.V., see Evtukh, A.A. 215 (2003) 237 molybdenum cathode doped with RE,O, 215 (2003) 273 Semenov, S.V., see Baiburin, V.B. 215 (2003) 269 Wang, J., Y. Wang, S. Tao, H. Li, J. Yang and M. Shao, W., K. Zhang, J. Li, S. Yan and Q. Chen, Zhou, Scandia-doped tungsten bodies for Gas poisoning investigations of scandate Sc-type cathodes 215 (2003) 38 and M-type dispenser cathodes 215 (2003) 54 Wang, Y., see Wang, J. 215 (2003) 38 Shao, W., see Li, J. 215 (2003) 49 Wang, Y., see Wang, J. 215 (20032)7 3 Shao, YJ., see Liu, G.Y. 215 (2003) 209 Wang, Y., see Yang, J. 215 (2003) 87 Sheshin, E.P., Properties of carbon materials, Whiting, M_J., see Jenkins, S.N. 215 (2003) 78 especially fibers, for field emitter applica- Wintucky, E.G., see Vancil, B.K. 215 (2003) 18 tons 215 (2003) 191 Sheshin, E.P., see Bormashov, V.S. 215 (2003) 178 Xia, S.H., see Liu, G.Y. 215 (2003) 209 Sheshin, E.P., see Kurnosov, D.A. 215 (2003) 232 Sheshin, E.P., see Leshukov, M. Yu. 215 (2003) 260 Yan, S., see Li, J. 215 (2003) 49 Shiriaev, S.A., see Popov, M.O. 215 (2003) 253 Yan, S., see Shao, W 215 (2003) 54 Shirochin, L.A., see Fursey, G.N. 215 (2003) 286 Yang, C., see Li, X. 215 (20032)4 9 Shustov, V.A., see Kukovitsky, E.F. 215 (2003) 201 Yang, J., see Wang, J. 215 (2003) 38 Sinitsyn, N.1., see Glukhova, O.E. 215 (2003) 149 Yang, J., Z. Nie and Y. Wang, Microstructure Sinitsyn, N.1., see Gulyaev, Yu.V. 215 (2003) 141 and emission ability of rare earth oxides Sinitsyn, N.I., see Zakharchenko, Yu.F. 215 (2003) 280 doped molybdenum cathodes 215 (2003) 87 Sinitsyn, N.L, Yu.F. Zakharchenko and Yu.V. Yilmazoglu, O., see Litovchenko, V.G. 215 (2003) 160 Gulyaev, Construction principles for multi- beam microwave power amplifier tubes Zakharchenko, Yu.F.. N.I. Sinitsyn, Yu.V. with distributed transverse—extended inter- Gulyaev and S.G. Saveliev, Peculiarities action, using fea electron source 215 (2003) 310 of constructing planar microminiature cur- Skorokhodov, E.N., see Popov, M.O. 215 (2003) 253 rent sources based on secondary emission Steinbrunn, A., see Roquais, J.M. 215 (2003) § cathode excited by an edge FEA 215 (2003) 280 Suvorov, A.L., see Popov, M.O. 215 (2003) 253 Zakharchenko, Yu.F., see Sinitsyn, N.I. 215 (2003) 310 Sysuev, A.A., see Bayburin, V.B. 215 (2003) 301 Zakhidov, Al.A., see Obraztsov, A.N. 215 (2003) 214 Zhang, F., see Li, X. 215 (2003) 249 Tao, S., see Wang, J. 215 (2003) 38 Zhang, J., see Wang, J. 215 (2003) 273 Tao, S., see Wang, J. 215 (2003) 273 Zhang, K., see Shao, W. 215 (2003) 54 Tchesov, R.G., see Kurnosov, D.A. 215 (2003) 232 Zhang, X., and G. Gaertner, lon bombardment Terentiev, A.A., see Bayburin, V.B. 215 (2003) 301 investigations of impregnated cathodes 215 (2003) 25 Torgashov, G.V., see Glukhova, O.E. 215 (2003) 149 Zhbanov, A.1., see Glukhova, O.E. 215 (20031)4 9 Zhong, D.Y., see Liu, G.Y. 215 (20032)0 9 Torgashov, G.V., see Gulyaev, Yu.V. 215 (2003) 141 Torgashov, I.G., see Glukhova, O.E. 215 (2003) 149 Zhou, M., see Wang, J. 215 (2003) 38 Zhou, M., see Wang, J. 215 (20032)7 3 Usanov, D.A., see Melnikova, LP. 215 (2003) 59 Zhu, M., see Li, J. 215 (2003) 49 applied surface science ELSEVIER Applied Surface Science 215 (2003) IV-IX www.elsevier.com locate/apsusc Subject Index Alloys Scanning electron and tunneling microscopy of palladium—barium emitters, V.B. Baiburin, Stratum-like structured metal alloy cathode, U.P. Volkov, S.V .S emenov and A.S. Semenov 215 (2003) 269 B.Ch. Djubua and O.V. Polivnikova 215 (2003) Atomic force microscopy Carbon Peculiarities of field emission from silicon Field emission in vacuum micro-electronics 215 (2003) 113 carbide films, A.A. Evtukh, N.I. Klyui, The field emission from carbon nanotubes, V.G. Litovchenko, Yu.M. Litvin, O.B. Kor- G.N. Fursey, D.V. Novikov, G.A. Dyuzhev, neta, V.M. Puzikov and A.V. Semenov 215 (2003) A.V. Kotcheryzhenkov and P.O. Vassiliev 215 (2003) 135 Fundamental and applied directions of field emission electronics using nanocluster car- Auger electron spectroscopy bon materials, Yu.V .G ulyaev, N.L. Sinitsyn, G.V. Torgashov and S.G. Saveliev 215 (2003) Miniature reservoir cathode—an update, B.K. Prediction of field emitter cathode lifetime Vancil and E.G. Wintucky 215 (2003) based on measurement of /-V curves, Preliminary results on the chemical character- V.S. Bormashov, K.N. Nikolski, A.S. isation of the cathode nickel—emissive Baturin and E.P. Sheshin 215 (2003) layer interface in oxide cathodes, S.N. Properties of carbon materials, especially Jenkins, D.K. Barber, MJ. Whiting and fibers, for field emitter applications, E.P. M.A. Baker 215 (2003) Sheshin 215 (2003) Microstructure and emission ability of rare CVD growth of carbon nanotube films on earth oxides doped molybdenum cathodes, nickel substrates, E.F. Kukovitsky, S.G. J. Yang, Z. Nie and Y. Wang 215 (2003) L’vov, N.A. Sainov and V.A. Shustov 215 (2003) 201 Electron spectroscopy of nanodiamond surface CNTs grown on the surface of various materials states, Pl. Belobrov, L.A. Bursill, K.1. by large volume MP-CVD for VME appli- Maslakov and A.P. Dementjev 215 (2003) cations, G.Y. Liu, D.Y. Zhong, S.H. Xia, S.F. Cheng, Y.G. Ding. YJ. Lu, YJ. Shao, H.Y. Li, LJ. Hangfu and E.G. Wang 215 (2003) 209 Barium Field emission characteristics of nanostruc- tured thin film carbon materials, A.N Barium depletion study on impregnated cath- Obraztsov, A.P. Volkov, A.A. Zakhidov, odes and lifetime prediction, J.M. Roquais, D.A. Lyashenko, Yu.V. Petrushenko and F. Poret, R. le Doze, J.L. Ricaud, A. Mon- O.P. Satanovskaya 215 (20032)1 4 terrin and A. Steinbrunn 215 (2003) Study of emission centers in amorphous carbon Miniature reservoir cathode—an update, B.K. (a-C:H) by field electron and field deso- Vancil and E.G. Wintucky 215 (2003) rption microscopy, D.P. Bernatskii, A.V. lon bombardment investigations of impreg- Chernyshev and V.I. Ivanov-Omskii 215 (2003) 222 nated cathodes, X. Zhang and G. Gaertner 215 (2003) Influence of parameters of field-emission cath- Estimation of barium evaporation rate from odoluminescence light sources on their emission measurement of dispenser cath- technical properties, M.O. Popov, S.Yu. odes, M. Ravi and K.S. Bhat 215 (2003) Bulakhov, A.V. Karpov, S.A. Shiriaev, Correlation of emission capability and long- E.N. Skorokhodov and A.L. Suvorov 215 (2003) 253 evity of dispenser cathodes with character- Characterizations of light sources with carbon istics of tungsten powders, I.P. Melnikova, fiber cathodes, M.Yu. Leshukov, A.S. V.G. Vorozheikin and D.A. Usanov 215 (2003) Baturin, N.N. Chadaev and E.P. Sheshin 215 (2003) 260 doi: 10.1016/S0169-4332(03 )00738-4 Subject Index Liquid carbon surface during explosive emis- A study of secondary electron emission proper- sion, G.N. Fursey, M.A. Polyakov, L.A. ties of the molybdenum cathode doped with Shirochin and A.N. Saveliev 215 (2003) RE,O,, J. Wang, H. Li, J. Liu, Y. Wang, M. Zhou, Y. Gao, S. Tao and J. Zhang 215 (2003) 273 Catalysis Chemical vapour deposition CVD growth of carbon nanotube films on nickel substrates, E.F. Kukovitsky, S.G. CVD growth of carbon nanotube films on Lvov, N.A. Sainov and V.A. Shustov 215 (2003) 201 nickel substrates, E.F. Kukovitsky, S.G. L’vov, N.A. Sainov and V.A. Shustov 215 (2003) 201 Cathodes CNTs grown on the surface of various materials by large volume MP-CVD for VME appli- Barium depletion study on impregnated cath- cations, G.Y. Liu, D.Y. Zhong, S.H. Xia, odes and lifetime prediction, J.M. Roquais, S.F. Cheng, Y.G. Ding, YJ. Lu, YJ. Shao, F. Poret, R. le Doze, J.L. Ricaud, A. Mon- H.Y. Li, LJ. Hangfu and E.G. Wang 215 (20032)0 9 terrin and A. Steinbrunn 215 (2003) Field emission characteristics of nanostruc- Miniature reservoir cathode—an update, B.K. tured thin film carbon materials, A.N. Vancil and E.G. Wintucky 215 (2003) Obraztsov, A.P. Volkov, A.A. Zakhidov, lon bombardment investigations of impreg- D.A. Lyashenko, Yu.V. Petrushenko and nated cathodes, X. Zhang and G. Gaertner 215 (2003) O.P. Satanovskaya 215 (2003) 214 Estimation of barium evaporation rate from Suppression of secondary electrons from dia- emission measurement of dispenser cath- mond by whisker formation, S.W. Lee, YJ. odes, M. Ravi and K.S. Bhat 215 (2003) Baik, C.J. Kang and D. Jeon 215 (2003) 265 Investigation and application of impregnated scandate cathodes, J. Li, S. Yan, W. Shao, Computer simulations Q. Chen and M. Zhu 215 (2003) Gas poisoning investigations of scandate and M-type dispenser cathodes, W. Shao, K. Computer simulation of magnetron devices, Zhang, J. Li, S. Yan and Q. Chen 215 (2003) V.B. Bayburin, A.A. Terentiev, V1. Vislov, Correlation of emission capability and long- A.B. Levande, I.K. Guriev and A.A. Sysuev 215 (2003) 301 evity of dispenser cathodes with character- istics of tungsten powders, I.P. Melnikova, Depth profiling V.G. Vorozheikin and D.A. Usanov 215 (2003) Recent developments in oxide cathode research for CRT applications, D.S. Barratt and G. Microstructure and emission ability of rare Gartner 215 (2003) earth oxides doped molybdenum cathodes, Accelerated life tests of CRT oxide cathodes, G. J. Yang, Z. Nie and Y. Wang 215 (2003) 87 Gaertner, D. Raasch, D. Barratt and S. Jenkins 215 (2003) Preliminary results on the chemical character- Diamond isation of the cathode nickel—emissive layer interface in oxide cathodes, S.N. Jenkins, Electron spectroscopy of nanodiamond surface D.K. Barber, MJ. Whiting and M.A. Baker 215 (2003) states, PI. Belobrov, L.A. Bursill, K.I Microstructure and emission ability of rare Maslakov and A.P. Dementjev 215 (2003) 169 earth oxides doped molybdenum cathodes, Field emission influenced by residual gas and J. Yang, Z. Nie and Y. Wang 215 (2003) passivation of field emitters by diamond Advanced structure of cathode for gas dis- coating, Y.C. Ko and D. Jeon 215 (20032)2 8 charge lamp of super high pressure, P.A. Suppression of secondary electrons from dia- Kruglenya and O.Y. Maslennikov 215 (2003) mond by whisker formation, S.W. Lee, YJ. Model of m-level low-frequency current fluc- Baik, C.J. Kang and D. Jeon 215 (2003) 265 tuations in metal thermionic cathodes, SS. Ghots and R.Z. Bakhtizin 215 (2003) Electrical properties Prediction of field emitter cathode lifetime based on measurement of /-V curves, V.S. Bormashov, K.N. Nikolski, A.S. Gas poisoning investigations of scandate and Baturin and E.P. Sheshin 215 (2003) 178 M-type dispenser cathodes, W. Shao, K. Stratum-like structured metal alloy cathode, Zhang, J. Li, S. Yan and Q. Chen 215 (2003) 54 B.Ch. Djubua and O.V. Polivnikova 215 (2003) 242 Fundamental and applied directions of field Characterizations of light sources with carbon emission electronics using nanocluster car- fiber cathodes, M.Yu. Leshukov, A.S. bon materials, Yu.V .G ulyaev, N.1. Sinitsyn, Baturin, N.N. Chadaev and E.P. Sheshin 215 (2003) 260 G.V. Torgashov and S.G. Saveliev 215 (2003) 141 VI Subject Index Field emission characteristics of nanostruc- shenko, Yu.V. Petrushenko and O.P. Sata- tured thin film carbon materials, A.N. novskaya 215 (2003) 214 Obraztsov, A.P. Volkov, Al.A. Zakhidov, Peculiarities of field emission from silicon D.A. Lyashenko, Yu.V. Petrushenko and carbide films, A.A. Evtukh, N.I. Klyui, O.P. Satanovskaya 215 (2003) 214 V.G. Litovchenko, Yu.M. Litvin, O.B. Peculiarities of field emission from silicon Korneta, V.M. Puzikov and A.V. Semenov 215 (2003) 237 carbide films, A.A. Evtukh, N.I. Klyui, Investigation of FEAs applied in vacuum V.G. Litovchenko, Yu.M. Litvin, O.B. Kor- electron gun, X. Li, C. Yang, G. Bai, F. neta, V.M. Puzikov and A.V. Semenov 215 (2003) 237 Zhang, F. Liao, J. Feng, M. Ding and Y. Du 215 (2003) 249 Suppression of secondary electrons from diamond by whisker formation, S.W. Lee, Electron emission YJ. Baik, C.J. Kang and D. Jeon 215 (2003) 265 Scanning electron and tunneling microscopy of Accelerated life tests of CRT oxide cathodes, G. palladium—barium emitters, V.B. Baiburin, Gaertner, D. Raasch, D. Barratt and S. Jenkins 215 (2003) 72 U.P. Volkov, S. V.S emenoavn d A.S. Semenov 215 (2003) 269 Suppression of secondary electrons from dia- A study of secondary electron emission proper- mond by whisker formation, $.W. Lee, YJ. ties of the molybdenum cathode doped with Baik, C.J. Kang and D. Jeon 215 (20032)6 5 RE,O,, J. Wang, H. Li, J. Liu, Y. Wang, M. Scanning electron and tunneling microscopy of Zhou, Y. Gao, S. Tao and J. Zhang 215 (2003) 273 palladium—barium emitters, V.B. Baiburin, Liquid carbon surface during explosive emis- U.P. Volkov, S.V. Semenov and A.S. Semenov 215 (20032)6 9 sion, G.N. Fursey, M.A. Polyakov, L.A. A study of secondary electron emission proper- Shirochin and A.N. Saveliev 215 (2003) 286 ties of the molybdenum cathode doped with RE,O,, J. Wang, H. Li, J. Liu, Y. Wang, M. Field desorption Zhou, Y. Gao, S. Tao and J. Zhang 215 (20032)7 3 Study of emission centers in amorphous carbon Electron energy loss spectroscopy (a-C:H) by field electron and field deso- rption microscopy, D.P. Bernatskii, A.V. Electron spectroscopy of nanodiamond surface Chernyshev and V.I. Ivanov-Omskii 215 (2003) 222 states, Pl. Belobrov, L.A. Bursill, K.1 Maslakov and A.P. Dementjev 215 (2003) 169 Field electron microscopy Electron microscopy Study of emission centers in amorphous carbon (a-C:H) by field electron and field deso- rption microscopy, D.P. Bernatskii, A.V. Preliminary results on the chemical characterisa- Chernyshev and V.I. Ivanov-Omskii 215 (2003) 222 tion of the cathode nickel—emissive layer interface in oxide cathodes, S.N. Jenkins, D.K. Barber, M.J. Whiting and M.A. Baker 215 (2003) 78 Field emission Microstructure and emission ability of rare earth oxides doped molybdenum cathodes, Field emission in vacuum micro-electronics 215 (2003) 113 J. Yang, Z. Nie and Y. Wang 215 (2003) 87 The field emission from carbon nanotubes, Field emission in vacuum micro-electronics 215 (2003) 113 G.N. Fursey, D.V. Novikov, G.A. Dyuzhev, The field emission from carbon nanotubes, A.V. Kotcheryzhenkov and P.O. Vassiliev 215 (2003) 135 G.N. Fursey, D.V. Novikov, G.A. Dyuzhev, Fundamental and applied directions of field A.V. Kotcheryzhenkov and P.O. Vassiliev 215 (2003) 135 emission electronics using nanocluster Fundamental and applied directions of field carbon materials, Yu.V. Gulyaev, N.1. Sinit- emission electronics using nanocluster car- syn, G.V. Torgashov and S.G. Saveliev 215 (2003) 141 bon materials, Yu.V .G ulyaev, N.1. Sinitsyn, Prediction of field emitter cathode lifetime G.V. Torgashov and S.G. Saveliev 215 (2003) 141 based on measurement of /-V curves, Properties of carbon materials, especially fibers, V.S. Bormashov, K.N. Nikolski, A.S. for field emitter applications, E.P. Sheshin 215 (2003) 191 Baturin and E.P. Sheshin 215 (2003) 178 CNTs grown on the surface of various materials Regression equations modelling diffusion pro- by large volume MP-CVD for VME appli- cesses, V.M. Anikin, Yu.A. Barulina and cations, G.Y. Liu, D.Y. Zhong, S.H. Xia, A.F. Goloubentsev 215 (2003) 185 S.F. Cheng, Y.G. Ding, YJ. Lu, YJ. Shao, Properties of carbon materials, especially fibers, HLY. Li, LJ. Hangfu and E.G. Wang 215 (2003) 209 for field emitter applications, E.P. Sheshin 215 (2003) 191 Field emission characteristics of nanostructured CNTs grown on the surface of various materials thin film carbon materials, A.N. Obraztsov, by large volume MP-CVD for VME appli- A.P. Volkov, A.l.A. Zakhidov, D.A. Lya- cations, G.Y. Liu, D.Y. Zhong, S.H. Xia, Subject Index S.F. Cheng, Y.G. Ding, YJ. Lu, YJ. Shao, Infrared spectroscopy H.Y. Li, L.J. Hangfu and E.G. Wang 215 (2003) 209 Field emission characteristics of nanostructured thin film carbon materials, A.N. Obraztsov, Study of emission centers in amorphous carbon (a-C:H) by field electron and field deso- A.P. Volkov, A.A. Zakhidov, D.A. Lya- shenko, Yu.V. Petrushenko and O.P. Sata- rption microscopy, D.P. Bernatskii, A.V. novskaya 215 (2003) 214 Chernyshev and V.I. Ivanov-Omskii 215 (2003) 222 Field emission influenced by residual gas and passivation of field emitters by diamond lon bombardment coating, Y.C. Ko and D. Jeon 215 (2003) 228 Peculiarities of field emission from silicon lon bombardment investigations of impreg- carbide films, A.A. Evtukh, N.I. Klyui, nated cathodes, X. Zhang and G. Gaertner 215 (2003) 25 V.G. Litovchenko, Yu.M. Litvin, O.B. Korneta, V.M. Puzikov and A.V. Semenov 215 (2003) 237 Stratum-like structured metal alloy cathode, Lanthanum B.Ch. Djubua and O.V. Polivnikova 215 (2003) 242 Investigation of FEAs applied in vacuum elec- Stratum-like structured metal alloy cathode, tron gun, X. Li, C. Yang, G. Bai, F. Zhang, B.Ch. Djubua and O.V. Polivnikova 215 (2003) 242 F. Liao, J. Feng, M. Ding and Y. Du 215 (2003) 249 Influence of parameters of field-emission cath- Luminescence odoluminescence light sources on their technical properties, M.O. Popov, S.Yu. Bulakhov, A.V. Karpov, S.A. Shiriaev, Field emission characteristics of nanostruc- E.N. Skorokhodov and A.L. Suvorov 215 (2003) 253 tured thin film carbon materials, A.N. Characterizations of light sources with carbon Obraztsov, A.P. Volkov, ALA. Zakhidov, fiber cathodes, M.Yu. Leshukov, AS. D.A. Lyashenko, Yu.V. Petrushenko and Baturin, N.N. Chadaev and E.P. Sheshin 215 (2003) 260 O.P. Satanovskaya 215 (2003) 214 Liquid carbon surface during explosive emis- Influence of parameters of field-emission cath- sion, G.N. Fursey, M.A. Polyakov, L.A. odoluminescence light sources on their Shirochin and A.N. Saveliev 215 (2003) 286 technical properties, M.O. Popov, S.Yu. Construction principles for multi-beam micro- Bulakhov, A.V. Karpov, S.A. Shiriaev, wave power amplifier tubes with distributed E.N. Skorokhodov and A.L. Suvorov 215 (2003) 253 transverse—extended interaction, using fea Characterizations of light sources with carbon electron source, NI. Sinitsyn, Yu.F. fiber cathodes, M.Yu. Leshukov, A.S. Zakharchenko and Yu.V. Gulyaev 215 (2003) 310 Baturin, N.N. Chadaev and E.P. Sheshin 215 (2003) 260 Field emission microscopy Molybdenum The field emission from carbon nanotubes, Microstructure and emission ability of rare G.N. Fursey, D.V. Novikov, G.A. Dyuzhev, earth oxides doped molybdenum cathodes, A.V. Kotcheryzhenkov and P.O. Vassiliev 215 (2003) 135 J. Yang, Z. Nie and Y. Wang 215 (2003) 87 Field emission influenced by residual gas and Graphite passivation of field emitters by diamond coating, Y.C. Ko and D. Jeon 215 (2003) 228 A study of secondary electron emission proper- Prediction of field emitter cathode lifetime based ties of the molybdenum cathode doped with on measurement of /-V curves, V.S. Borma- RE,O,, J. Wang, H. Li, J. Liu, Y. Wang, M. shov, K.N. Nikolski, A.S. Baturin and E.P. Zhou, Y. Gao, S. Tao and J. Zhang 215 (2003) 273 Sheshin 215 (2003) 178 Properties of carbon materials, especially fibers, Nanostructures for field emitter applications, E.P. Sheshin 215 (2003) 191 Field emission in vacuum micro-electronics 215 (2003) 113 Indium The field emission from carbon nanotubes, G.N. Fursey, D.V. Novikov, G.A. Dyuzhev, Gas poisoning investigations of scandate and A.V. Kotcheryzhenkov and P.O. Vassiliev 215 (2003) 135 M-type dispenser cathodes, W. Shao, K. Fundanda appmlied edirenctionts oaf fielldem is- Zhang, J. Li, S. Yan and Q. Chen 215 (2003) 54 sion electronics using nanocluster carbon Stratum-like structured metal alloy cathode, materials, Yu.V. Gulyaev, N.1. Sinitsyn, B.Ch. Djubua and O.V. Polivnikova 215 (2003) 242 G.V. Torgashov and S.G. Saveliev 215 (2003) 141 Vill Subject Index Electron spectroscopy of nanodiamond surface Palladium states, PI. Belobrov, L.A. Bursill, K.1. Maslakov and A.P. Dementjev 215 (2003) 169 Scanning electron and tunneling microscopy of CVD growth of carbon nanotube films on palladium—barium emitters, V.B. Baiburin, nickel substrates, E.F. Kukovitsky, S.G. L’vov, N.A. Sainov and V.A. Shustov 215 (2003) 201 U.P. Volkov, S. V. Semenov and A.S. Semenov 215 (2003) 269 CNTs grown on the surface of various materials by large volume MP-CVD for VME appli- Phase transition cations, G.Y. Liu, D.Y. Zhong, S.H. Xia, S.F. Cheng, Y.G. Ding, YJ. Lu, YJ. Shao, HY. Li, LJ. Hangfu and E.G. Wang 215 (2003) 209 Determination of the latent heat of phase tran- Field emission characteristics of nanostruc- sitions in ruthenium by means of a ther- tured thin film carbon materials, A.N. mionic microscope, V.I. Emel’ yanov, O-Y. Obraztsov, A.P. Volkov, A.1.A. Zakhidov, Maslennikov and P.N. Roukhlyada 215 (2003) 96 D.A. Lyashenko, Yu.V. Petrushenko and O.P. Satanovskaya 215 (2003) 214 Photo electron spectroscopy Nickel Electron spectroscopy of nanodiamond surface states, Pl. Belobrov, L.A. Bursill, K.I. Preliminary results on the chemical character- Maslakov and A.P. Dementjev 215 (2003) 169 isation of the cathode nickel—emissive layer interface in oxide cathodes, S.N. Plasma processing Jenkins, D.K. Barber, M.J. Whiting and M.A. Baker 215 (2003) 78 CVD growth of carbon nanotube films on CNTs grown on the surface of various materials nickel substrates, E.F. Kukovitsky, S.G. by large volume MP-CVD for VME appli- L’vov, N.A. Sainov and V.A. Shustov 215 (20032)0 1 cations, G.Y. Liu, D.Y. Zhong, S.H. Xia, S.F. Cheng, Y.G. Ding, YJ. Lu, YJ. Shao, Osmium H.Y. Li, L.J. Hangfu and E.G. Wang 215 (2003) 209 Suppression of secondary electrons from diamond by whisker formation, S.W. Lee, Gas poisoning investigations of scandate and YJ. Baik, C.J. Kang and D. Jeon 215 (2003) 265 M-type dispenser cathodes, W. Shao, K. Zhang, J. Li, S. Yan and Q. Chen 215 (2003) Raman scattering Oxides Study of emission centers in amorphous carbon (a-C:H) by field electron and field deso- Recent developments in oxide cathode research rption microscopy, D.P. Bernatskii, A.V. for CRT applications, D.S. Barratt and G. Chernyshev and V.1. [vanov-Omskii 215 (2003) 222 Gartner 215 (2003) Accelerated life tests of CRT oxide cathodes, G. Gaertner, D. Raasch, D. Barratt and S. Rare earth metals Jenkins 215 (2003) Preliminary results on the chemical character- isation of the cathode nickel—emissive Microstructure and emission ability of rare layer interface in oxide cathodes, S.N. earth oxides doped molybdenum cathodes, Jenkins, D.K. Barber, MJ. Whiting and J. Yang, Z. Nie and Y. Wang 215 (2003) 87 M.A. Baker 215 (2003) A study of secondary electron emission proper- A study of secondary electron emission proper- ties of the molybdenum cathode doped with ties of the molybdenum cathode doped with RE,O,, J. Wang, H. Li, J. Liu, Y.W ang, M RE,O,, J. Wang, H. Li, J. Liu, Y. Wang, M. Zhou, Y. Gao, S. Tao and J. Zhang 215 (2003) 273 Zhou, Y. Gao, S. Tao and J. Zhang 215 (2003) 273 Ruthenium Oxygen Determination of the latent heat of phase tran- Suppression of secondary electrons from dia- sitions in ruthenium by means of a ther- mond by whisker formation, S.W. Lee, YJ. mionic microscope, V.1. Emel’ yanov, O.Y. Baik, C.J. Kang and D. Jeon 215 (2003) 265 Maslennikov and P.N. Roukhlyada 215 (2003) 96 Subject Index Scandium Tungsten Investigation and application of impregnated Barium depletion study on impregnated cath- scandate cathodes, J. Li, S. Yan, W. Shao, odes and lifetime prediction, J.M. Roquais, Q. Chen and M. Zhu 215 (2003) 49 F. Poret, R. le Doze, J.L. Ricaud, A. Mon- Gas poisoning investigations of scandate and terrin and A. Steinbrunn 215 (2003) 5 M-type dispenser cathodes, W. Shao, K. Correlation of emission capability and long- Zhang, J. Li, S. Yan and Q. Chen 215 (2003) 54 evity of dispenser cathodes with character- istics of tungsten powders, I.P. Melnikova, V.G. Vorozheikin and D.A. Usanov 215 (2003) 59 Scanning tunneling spectroscopy Advanced structure of cathode for gas dis- charge lamp of super high pressure, P.A. Scanning electron and tunneling microscopy Kruglenya and O.Y. Maslennikov 215 (2003) 101 of palladium—barium emitters, V.B. Bai- burin, U.P. Volkov, S.V. Semenov and A.S. Semenov 215 (2003) 269 Work function Secondary ion mass spectroscopy Determination of the latent heat of phase tran- sitions in ruthenium by means of a ther- mionic microscope, V.I. Emel’ yanov, O.Y. Preliminary results on the chemical character- Maslennikov and P.N. Roukhlyada 215 (2003) 96 isation of the cathode nickel—emissive Scanning electron and tunneling microscopy of layer interface in oxide cathodes, S.N. palladium—barium emitters, V.B. Baiburin, Jenkins, D.K. Barber, MJ. Whiting and U.P. Volkov, S.V. Semenov and A.S. Semenov 215 (2003) 269 M.A. Baker 215 (2003) 78 X-ray diffraction Silicon carbide CVD growth of carbon nanotube films on Peculiarities of field emission from silicon nickel substrates, E.F. Kukovitsky, S.G. carbide films, A.A. Evtukh, N.I. Klyui, Lvov, N.A. Sainov and V.A. Shustov 215 (20032)0 1 V.G. Litovchenko, Yu.M. Litvin, O.B. Korneta, V.M. Puzikov and A.V. Semenov 215 (2003) 237 X-ray spectroscopy Thin films Preliminary resultso n the chemical characterisa- Suppression of secondary electrons from tion of the cathode nickel—emissive layer diamond by whisker formation, $.W. Lee, interface in oxide cathodes, S.N. Jenkins, YJ. Baik, CJ. Kang and D. Jeon 215 (20)3) 265 D.K. Barber, M.J. Whiting and M.A. Baker 215 (2003) 78 Microstructure and emission ability of rare earth oxides doped molybdenum cathodes, Thorium J. Yang, Z. Nie and Y. Wang 215 (2003) 87 A study of secondary electron emission proper- Advanced structure of cathode for gas dis- ties of the molybdenum cathode doped with charge lamp of super high pressure, P.A. RE,O,, J. Wang, H. Li, J. Liu, Y. Wang, M. Kruglenya and O.Y. Maslennikov 215 (2003) 101 Zhou, Y. Gao, S. Tao and J. Zhang 215 (2003) 273
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