COLLECTIVE EFFECTS IN THE DESORPTION PROCESS INDUCED BY Hn+ CLUSTERS NEAR THE BOHR'S VELOCITY

The emission yield of the positive ions Cs+ and H+ from CsI bombarded by 600 keV Hn+ clusters, has been correlated with the energy deposited by these particles. Above the BOHR'S velocity, vo, the concept of equipartition between close and distant collisions could apply while below vo, collective effects are still observed (distant collisions). The same power relationship between the emission yield and an "efficent" mean stopping power for the cluster is pointed out within the whole investigated velocity range

Developpement des techniques d'analyse par faisceaux d'ions acceleres elementaires (PIXE PIGE) et structurales (HSF-SIMS): - applications a l'analyse des sols sans traitement prealable

BIASPas de résum

Utilisation d'ions lithium pour l'analyse des surfaces et des couches minces

Dans la tendance actuelle à utiliser des ions plus lourds que les particules α en rétrodiffusion élastique (domaine d'énergie de l'ordre du MeV), l'emploi d'ions lithium apparaît constituer une amélioration notable des caractéristiques essentielles de la méthode. Ceci est particulièrement vrai en ce qui concerne la résolution en profondeur, avec le maintien de la résolution des détecteurs, pour ce type d'ions. Nous présentons ici, en même temps qu'une étude comparative des performances analytiques des ions Li et d'autres particules, quelques applications en montrant l'intérêt dans l'étude des surfaces et des couches minces. Parmi les applications les plus caractéristiques, citons, pour des échantillons épais, l'étude simultanée de la composition des couches d'oxydation anodique formées à la surface d'aluminium et du comportement de l'impureté majeure du bain de formation. Dans les études de couches minces, outre la détermination précise de la stoechiométrie des couches diélectriques AlN, SiO, Al2O3, des effets d'implantation pourront être étudiés, comme l'oxygène dans les couches SiO

Intense emission of cluster anions from gold targets under impact of keV/u gold clusters

CAS, BIASPas de résum

Laser annealing of silicon on sapphire

Silicon-implanted silicon-on-sapphire wafers have been annealed by 50-ns pulses from a Q-switched Nd : YAG laser. The samples have been analyzed by channeling and by omega-scan x-ray double diffraction. After irradiation with pulses of a fluence of about 5 J cm^–2 the crystalline quality of the silicon layer is found to be better than in the as-grown state

Very large gold and silver sputtering yields induced by keV to MeV energy Aun_n clusters (n = 1-13)

CAS, BIA

Study of ion emission from a germanium crystal surface under impact of fast Pb ions in channeling conditions

International audienceA thin germanium crystal has been irradiated at GANIL by Pb beams of 29 MeV/A (charge state Qin = 56 and 72) and of 5.6 MeV/A (Qin = 28). The induced ion emission from the sample entrance surface was studied, impact per impact, as a function of Qin, velocity vin and energy loss DE in the crystal. The Pb ions transmitted through the crystal were analyzed in charge (Qout) and energy using the SPEG spectrometer. The emitted ionized species were detected and analyzed in mass by a Time of Flight multianode detector (LAG). Channeling was used to select peculiar DE in Ge and hence peculiar Pb ion trajectories close to the emitting surface. The experiment was performed in standard vacuum. No Ge emission was found. The dominating emitted species are H+ and hydrocarbon ions originating from the contamination layer on top of the crystal. The mean value of the number of detected species per incoming Pb ion (multiplicity) varies as (Qin/vin)^p, with p values in agreement with previous results. We have clearly observed an influence of the energy deposition DE in Ge on the emission from the top contamination layer. When selecting increasing values of DE, we observed a rather slow increase of . On the contrary, the probabilities of high multiplicity values, that are essentially connected to fragmentation after emission, strongly increase with DE

Cluster-Impact Fusion and Effective Deuteron Temperature

Temperature and kinematic line broadening are the primary contributions to the width of the proton energy spectrum measured in cluster-impact fusion experiments. By ascertaining these two contributions, we have determined an effective temperature for the high-velocity deuteron component that is responsible for the measured fusion yield. The extracted effective temperature is substantially higher than conventional estimates., and implies that cluster-impact fusion is hot fusion on an atomic scale. The proton spectrum rules out contaminants in explaining the high yield.Comment: 11 pages, 2 figures. PACS numbers: 79.20.RF, 25.45.--z, 47.40.Nm, 52.50. L