Zobrazeno 1 - 9
of 9
pro vyhledávání: '"G N Shishkin"'
Publikováno v:
Soviet Atomic Energy. 72:171-175
Autor:
A. M. Parshin, I. N. Chernov, G. N. Shishkin, A. N. Lapin, A. N. Mansurova, V. D. Yaroshevich, O. A. Kozhevnikov, B. A. Kalin, E. E. Goncharov, M. I. Guseva, D. M. Skorov
Publikováno v:
Soviet Atomic Energy. 53:697-706
Autor:
G. N. Shishkin, V. L. Yakushin, A. N. Lapin, V. N. Chernikov, B. A. Kalin, O. A. Kozhevnikov, I. I. Chernov
Publikováno v:
Soviet Atomic Energy. 59:668-675
Using transmission electron microscopy, x-ray structural analysis, and the thermal desorption techniques, the authors carried out a detailed study of the structural and phase changes, defect formation, and helium accumulation in the He/sup +/-bombard
Autor:
B. A. Kalin, G. N. Shishkin, V. N. Chernikov, I. I. Chernov, M. I. Guseva, A.P. Zakharov, D. M. Skorov
Publikováno v:
Soviet Atomic Energy. 52:396-399
Publikováno v:
Soviet Atomic Energy. 53:533-536
Publikováno v:
Soviet Journal of Quantum Electronics. 8:902-904
Thin films were evaporated using a quasi-cw neodymium glass laser. Thin (~10 nm) uniform-thickness films of many elements were deposited using laser radiation intensities q >1 MW/cm2. These films were mainly polycrystalline.
Publikováno v:
Soviet Atomic Energy. 42:12-14
It has been established that maximal erosion of vanadium and its alloys is observed at 700–900°K, the corresponding range for niobium alloys being 900–1100°K. The maximal value of the erosion coefficients of alloys for vanadium and alloys V+25%
Autor:
S. K. Fedyaev, G. N. Shishkin, N. M. Kirilin, B. A. Kalin, D. M. Skorov, V. G. Tel'kovskii, A. A. Pisarev
Publikováno v:
Soviet Atomic Energy. 40:299-300
Autor:
D. M. Skorov, G. N. Shishkin, B. A. Kalin, V. G. Tel'kovskii, S. K. Fedyaev, N. M. Kirilin, A. A. Pisarev
Publikováno v:
Soviet Atomic Energy. 39:720-721
Critical He ion bombardment doses associated with blistering of Nb and stainless steel were measured. It was found that the critical doses for these materials are close together and in the range 1 to 4 x 10/sup 17/ ion/cm/sup 2/. (JRD)