摘要L x-ray intensity ratios Ll/Lγ, Lα/Lγ and Lβ/Lγ for 92U and 90Th are measured by using 59.5keV incident photon energy at 110° and 125° scattering angles. The samples are located in the external magnetic field of intensities ± 0.15 T, ±0.30 T, ± 0.45 T, ± 0.60 T and ± 0.75 T. The experimental results obtained for B=0 are compared with the theoretical values calculated using Scofield's tables based on the Hartree--Slater theory. The contribution to the alignment of the external magnetic field is discussed. It is observed that the L x-ray intensity ratios decrease with the increasing magnetic field intensity.
Abstract:L x-ray intensity ratios Ll/Lγ, Lα/Lγ and Lβ/Lγ for 92U and 90Th are measured by using 59.5keV incident photon energy at 110° and 125° scattering angles. The samples are located in the external magnetic field of intensities ± 0.15 T, ±0.30 T, ± 0.45 T, ± 0.60 T and ± 0.75 T. The experimental results obtained for B=0 are compared with the theoretical values calculated using Scofield's tables based on the Hartree--Slater theory. The contribution to the alignment of the external magnetic field is discussed. It is observed that the L x-ray intensity ratios decrease with the increasing magnetic field intensity.
D. Demir;Y. Sahin. Measurement of L X-Ray Intensity Ratios for 92U and 90Th Elements Using Photoionization in an External Magnetic Field[J]. 中国物理快报, 2007, 24(3): 668-671.
D. Demir, Y. Sahin. Measurement of L X-Ray Intensity Ratios for 92U and 90Th Elements Using Photoionization in an External Magnetic Field. Chin. Phys. Lett., 2007, 24(3): 668-671.
[1]Pavlov G G and Meszaros P 1993 Astrophys. J. 416752 [2]Kahlon K S, Aulakh H S, Singh N, Mittal R, Allawadhi K L and Sood BS 1991 Phys. Rev. A 43 1455 [3]Ertuv grul M, Buyukkasap E and Erdov gan H 1997 Appl. Spectrosc. Rev. 32 175 [4]Kumar A, Puri S, Mehta D, Garg M L and Singh N 1999 J.Phys. B: At. Mol. Opt. Phys. 32 3701 [5]Tartari A, Baraldi C, Casnati E, Dare A, Fernandez J E andTaioli S 2003 J. Phys. B: At. Mol. Opt. Phys. 36 843 [6]Gerward L, Guilbert N, Bjorn K and Levring H 2001 Radiat.Phys. Chem. 60 23 [7]Budak G, Karabulut A, c Simc sek O and Ertuv grul M 1999 Instr. Sci. Technol. 27 357 [8] Oz E, Baydac s E, Ertuv grul M and c Sahin Y 2004 J.Radioanal. Nucl. Chem. 260 75
2007, Vol. 24 
