SPATIAL RESOLUTION IMPROVEMENT OF THE NUCLEAR SCANNING MICROPROBE CHANNEL OF THE ANALYTICAL ACCELERATOR COMPLEX OF THE API NAS OF UKRAINE-Reference-Cited by-同舟云学术

SPATIAL RESOLUTION IMPROVEMENT OF THE NUCLEAR SCANNING MICROPROBE CHANNEL OF THE ANALYTICAL ACCELERATOR COMPLEX OF THE API NAS OF UKRAINE

Published:2024-06-10 Issue: Volume: Page:87-91
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Container-title:Problems of Atomic Science and Technology
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Author:

Ponomarev A.G.,Vozny V.I.,Ihnatiev I.H.,Kolinko S.V.,Magilin D.V.,Rebrov V.A.

Abstract

The probe-forming system of a nuclear scanning microprobe based on a quadruplet of magnetic quadrupole lenses with three independent power supplies has been studied. In the stigmatic focusing mode, the third power supply is a free parameter affecting the ion-optical properties of the microprobe. The optimal system was selected as a result of solving an optimization problem in which the figure of merit was the reduced collimated acceptance. The numerical simulation of the beam focusing process in that one-parametric system, taking into account the experimentally measured distribution of protons in the trajectory phase space, showed that the dimensions of the beam spot on the target can be reduced several times compared to the working system. At the same time, the current density in the focused spot increases by about one order.

Publisher

Problems of Atomic Science and Technology

Reference17 articles.

1. V.E. Storizhko, A.G. Ponomarev, V.A. Rebrov, A.I. Chemeris, A.A. Drozdenko, A.B. Dudnik, V.I. Miroshnichenko, N.A. Sayko, P.A. Pavlenko, and L.P. Peleshuk. The Sumy scanning nuclear microprobe: design features and first tests // Nucl. Instr. Meth. Phys. Res., Sect. B. 2007, N 260, p. 49-54.

2. D.V. Magilin, A.G. Ponomarev, V.A. Rebrov, N.A. Sayko, K.I. Melnik, V.I. Miroshnichenko, V.Y. Storizhko. Performance of the Sumy nuclear microprobe with the integrated probe-forming system // Nucl. Instr. Meth. Phys. Res., Sect. B. 2009, N 267, p. 2046-2049.

3. V.A. Brazhnik, A.D. Dymnikov, D.N. Jamieson, S.A. Lebed, G.J.F. Legge, A.G. Ponomarev, V.E. Sto-rizhko. Numerical optimization of magnetic nonlinear quadrupole systems in an ion microprobe with given spot size on the target // Nucl. Instr. Meth. Phys. Res., Sect. B. 1995, N 104, p. 92-94.

4. V.A. Brazhnik, V.I. Miroshnichenko, A.G. Po-nomarev, V.E. Storizhko. Optimization of magnetic quadrupole probe forming systems based on separated Russian quadruplet // Nucl. Instr. Meth. Phys. Res., Sect. B. 2001, N 174, p. 385-391.

5. V.A. Rebrov, A.G. Ponomarev, V.K. Palchik, N.G. Melnik. The new design of magnetic quadrupole lens doublet manufactured from a single piece // Nucl. Instr. Meth. Phys. Res., Sect. B. 2007, N 260, p. 34-38.