[1] S. Marghitu, A. Radu,
I.E. Teodorescu, Self Controlled Pulsing of a Penning Ion Source,
Nucl. Instr. Meth., 66 (1968), pp. 105-108
[2] S. Marghitu, Studiul
Descarcarii si al Fasciculului Ionic la Sursele de Ioni cu Electroni
Oscilanti, St. Cerc. Fiz., Tom 23, Nr.2, pp.145- 159, 1971.
[3] S. Marghitu, Contributii
la studiul fasciculelor de Ioni din Generatoare de Neutroni,
Teza de doctorat, Catedra de Bazele Teoretice ale Electrotehnicii,
Inst. Politehnic Bucuresti, 1986.
[4] S. Marghitu, D. Martin,
C. Oproiu, O. Marghitu, Dispozitiv Electrono-Optic Pentru Procesarea
Complexa a Metalelor cu Fascicule de Electroni si / sau Ioni,
Brevet România, Nr. 110104, 1995.
[5] E. Koleva, C. Menhard,
T. Löwer, G. Mladenov, Emittance Calcultation Based on
the Current Distribution Measurements at Changes of the Beam Focusing,
Proc. 8-th. Intern. Conf. Electron Beam Technology, 5-10, June 2006,
Varna, Elektrotehnica i Electronika, E+E, 5-6, 2006, pg. 51-60
[6] S. Marghitu, C. Dinca,
M. Rizea, C. Oproiu, M. Toma, D. Martin, E. Iliescu, Non-destructive
beam characterisation at an electron source exit, Nucl. Instr. Meth.
B 161-163, pp 1113-1117, 2000.
[7] S. Marghitu, C. Oproiu,
C. Dinca, O. Marghitu, Pulsed Electron Source Characterisation with
the Modified Three Gradient Method; http://arXiv.org/pdf/physics/0111099,
2001.
[8] S. Marghitu, O. Marghitu,
C. Oproiu, G. Marin, Fl. Scarlat, Diagnosis and dynamics in a simple
low energy medium current electron beam channel, Nucl. Instr. Meth.
B 217, 498-504, 2004.
[9] M. Rizea, The magnetic
field calculation and the electron trajectory determination in computer
aided design of unsaturated magnetic lenses, Rom. J. Phys. 37, 1031-1051,
1992.
[10] S. Marghitu, D. Martin,
C. Oproiu, O. Marghitu, R. Cramariuc, Computer aided simulations
of high current small energy electron beam channels, Nucl. Instr.
Meth. B 113, 114-118, 1996
[11] S. Marghitu, O. Marghitu,
C. Oproiu, D. Martin, Fl. Scarlat, On the design of low energy electron
beam channels, Analele Universitatii de Vest, Timisoara, Vol. XLIV,
Seria Stiinte Fizice, pp.197 – 202, 2003.
[12] T. Anthony and H. Cline,
Heat treating and melting material with a scanning laser or electron
beam, J. of Appl Phys. 48, p. 3895, 1977
[13] Beams'98, Proc. 12th
Int. Conf. on High-power particle beams, Haifa, Israel, 1998.
[14] C. Ruset, E. Grigore,
Curent trends in plasma surface engineering of mechanical components,
XIII-th Conference on plasma physics and applications, 27-29 Oct.2005,
Iasi, România
[15] S. Marghitu, I. Nicolescu,
M. Niculescu, O. Marghitu, Surface hardening heat treatments by
high voltage glow discharges electron beam, Rom Rep.in Phys., Vol
49, No. 3-4, pp 283-289, 1997
[16] T. Lower, Analysis, visualization
and accurate description of an electron beam for high repeatability
of industrial production processes, in G. Mladenov (Ed.), Proc.
7th Int. Conf. on Electron Beam Technologies, EBT'2003, pp.45-55,
2003.
[17] D. Neagu, Contributii
la Studiul Proceselor de Prelucrare cu fascicule de electroni, Teza
de doctorat, Univ. Politehnica Bucuresti, 1999. |