Electron capture and loss in electron swarm experiments

T h e capture, loss a n d ionization cross-section m e a s u r e m e n t s are carried o u t for H +, He +, N +, N~, Ne +, A +, Kr+, J+ a n d T1 + ions shot into hydrogen, neon a n d argon gas, in t h e energy region 2-25 keV. T h e cross-section results are i n t e r p r e t e d with the p a r a m

The advantages of ion etching over wet chemical etching are demonstrated, e,g. structure resolution in the region of the etching depth, no undercutting, excellent reproducibility and high adherence of small striplines.

Exposure of solutions of siber (I) perchlorate m mcthl I eanidr to 6OCo y-rays ilt 77 I; gave \_ag(iI) and Ag(O) ccntrrs in addition to radial-formed from the solvent. Their ESR spectra shoved h>prrfine fcaturrs from Io9\_Ag and I\*'&! together \\*ith features from tburequivaknt 14N nuclei The resul

Quantum field chemistry (QFC) conception within the framework of the kinematic electrondensity waves formalism has been applied to the description of corpuscular electron swarming. Interspersed between atoms, electron corpuscular solitary waves organize some g-dimensional lattices. An energy of the