Atıflar

Atıf Alan Çalışma: Tan, M.,.Braga, R. A, Fink, R. W., and Venugopala Rao, p. “X-Ray Fluorescence Yields and Coster- Kronig Transition Probabilities of the L1, L2 and L3 subshells of Pb” Physica Scripta, 25, 1982, 536-547.
1. Tan, M Braga-RA Fink-RW Rao-PV, Bi-207 L-Subshell Orbital Electron-Capture Probabilities and Decay Energy, NUCLEAR PHYSICS A 1982, Vol 388, Iss 3, pp 498-504.
2. Campbell-JL Gingerich-RR Maxwell-JA Mcghee-PL Ollerhead-RW, New Approach to Measurement of the L2-L3 Coster-Kronig Transition Probability in Heavy-Atoms, PHYSICAL REVIEW A-GENERAL PHYSICS 1984, Vol 30, Iss 1, pp 161-169.
3. Marques-MI Martins-MC Ferreira-JG, L1 Subshell Yields of Pt and Hg, PHYSICA SCRIPTA 1985, Vol 32, Iss 2, pp 107-110.
4. Catz-AL, Measurement of the L2-L3 Coster-Kronig Transition-Probability in Pb (Z=82), PHYSICAL REVIEW A-GENERAL PHYSICS 1987, Vol 36, Iss 7, pp 3155-3162.
5. Semmes-PB Braga-RA Fink-RW Griffin-JC, L2-L3 Coster-Kronig Transition-Probability for Z = 54, REVIEW C-NUCLEAR PHYSICS 1987, Vol 35, Iss 2, pp 749-752.
6. Werner-U Jitschin-W, Radiative, Auger, and Coster-Kronig Yields Obtained by the Synchroton Photoionization Technique, JOURNAL DE PHYSIQUE 1987, Vol 48, Iss NC-9, pp 559-562.
7. Campbell-JL Mcghee-PL, L-Subshell Fluorescence and Coster-Kronig Yields for Z=78, 80, 81 and 82, JOURNAL DE PHYSIQUE 1987, Vol 48, Iss NC-9, pp 597-600.
8. Werner-U Jitschin-W, L, Vacancy Decay in Heavy Elements (72 Less Than or Equalto Z Less Than or Equal to 82) by the Synchrotron Photoionization Method, PHYSICAL REVIEW A-GENERAL PHYSICS 1988, Vol 38, Iss 8, pp 4009-4018.
9. Tan M Braga RA Fink RW Rao PV, L2,3 Subshell X-Ray Fluorescence Yields and Coster-Kronig Transition Probabilities of Nd and Yb, PHYSICA SCRIPTA 1988, Vol 37, Iss 1, pp 62-65.
10. Jitschin-W Grosse G Rohl P, Coster-Kronig Factor-F13 of Y-39 Measured with the Synchrotron Photoionization Method, PHYSICAL REVIEW A-GENERAL PHYSICS 1989, Vol 39, Iss 1, pp 103-109.
11. Xu-JQ, L-Subshell Fluorescence Yields for Elements with 73 Less-Than-or-Equal-to Z Less-Than-or- Equal-to 83, PHYSICAL REVIEW A 1991, Vol 43, Iss 9, pp 4771-4779.
12. Marques-MI Martins-MC Parente-F Ferreira-JG, L1 Fluorescence Yield of Yb and Ir, JOURNAL OF PHYSICS B-ATOMIC MOLECULAR AND OPTICAL PHYSICS 1993, Vol 26, Iss 7, pp 1263-1269
13. XU JQ, XU XJ, L-SUBSHELL FLUORESCENCE YIELDS FOR METALLIC URANIUM AND THORIUM, PHYS REV B 51 (12): 7834-7843 MAR 15 1995.
14. Sarkar M, Mitra D, Bhattacharya D, et al., Analytical expression for the L-3 subshell fluorescence yield in the range Z=23-96, RADIAT PHYS CHEM 50 (2): 125-132 AUG 1997.
15. Oz E, Ekinci N, Ozdemir Y, et al., Measurement of atomic L shell Coster-Kronig yields (f(12), f(23) and f(13)) for some elements in the atomic number range 59 <= Z <= 90 J PHYS B-AT MOL OPT 34 (4): 631-638 FEB 28 2001.
16. Durak R, Ozdemir Y., Experimental determination of L-subshell fluorescence yields for heavy elements at 59.54 keV, J ANAL ATOM SPECTROM 16 (10): 1167-1171 2001.
17. Miranda J, Romo-Kroger C, Lugo-Licona M., Effect of atomic parameters on L-shell X-ray production cross-sections by proton impact with energies below 1 MeV, NUCL INSTRUM METH B 189: 21-26 APR 2002.
18. Ozdemir Y, Durak R., L-subshell fluorescence yields (omega(1,) omega(2) and omega(3)) for elements in the atomic range 55 <= Z <= 68 with a Si(Li) detector, J QUANT SPECTROSC RA 77 (1): 95-103 FEB 15 2003.
19. Ozdemir Y., Photon-induced L-subshell Auger yields for some elements in the atomic number range 55 <= z <= 92 using a S(Li) detector, RADIAT PHYS CHEM 66 (5): 317-322 APR 2003.
20. Campbell JL., Fluorescence yields and Coster-Kronig probabilities for the atomic L subshells, ATOM DATA NUCL DATA 85 (2): 291-315 NOV 2003.
21. Ozdemir Y., Measurement of L-subshell fluorescence yield ratios (omega(1)/omega(2), omega(1)/omega(3) and omega(2)/omega(3)) of some elements between cesium and uranium, J QUANT SPECTROSC RA 83 (3-4): 295-301 FEB 1 2004.

Atıf Alan Çalışma: Tan, M., Braga, R. A., Fink, R. W., and Venugopala Rao, p. “L2,3 subshell X- Ray Fluorescence Yields and Coster-Kronig Transition Probabilities of Nd and Yb” Physica Scripta, 37, 1988, 62-65.
1. Catz-AL, Measurement of the L2-L3 Coster-Kronig Transition-Probability in TM(Z=69), PHYSICAL REVIEW A-GENERAL PHYSICS 1989, Vol 40, Iss 9, pp 4977-4982.
2. Catz-AL Meyers-MF, Measurement of the L2-L3 Coster-Kronig Transition-Probability in Nd(Z=60), PHYSICAL REVIEW A 1990, Vol 41, Iss 1, pp 271-276.
3. Xu-JQ, L-Subshell Fluorescence Yields for Elements with 73 Less-Than-or-Equal-to Z Less-Than-or- Equal-to 83, PHYSICAL REVIEW A 1991, Vol 43, Iss 9, pp 4771-4779.
4. Stotzel-R Werner-U Sarkar-M Jitschin-W, Fluorescence, Coster-Kronig and Auger Yields of the Sm- 62 L-Subshells Measured with the Synchrotron Photoionization Method, JOURNAL OF PHYSICS B- ATOMIC MOLECULAR AND OPTICAL PHYSICS, 1992, Vol 25, Iss 10, pp 2295-2307.
5. Xu-JQ Xu-XJ, L(1)-Subshell and L(2)-Subshell Fluorescence Yields of Lanthanides, PHYSICAL REVIEW A 1994, Vol 49, Iss 3, pp 2191-2194.
6. Ertugrul M, Determination of L-3 Subshell Fluorescence Yield of Nd with a Si(Li) Detector, NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION B, Vol 124(4), 1997, 475- 477.
7. Sarkar M, Mitra D, Bhattacharya D, et al., Analytical expression for the L-3 subshell fluorescence yield in the range Z=23-96, RADIAT PHYS CHEM 50 (2): 125-132 AUG 1997.
8. Ertugrul M., Determination of L-2 to L-3 Coster-Kronig yield of pr J ELECTRON SPECTROSC 125 (1): 69-73 AUG 2002.

Atıf Alan Çalışma: Tan, M., Şahin, Y., and Şaplakoğlu, A., “L3 subshell intensity ratios of Pb, Th and U " X-Ray Spectrometry, 19, 1990, 233-235.
1. Torok-SB Vangrieken-RE, X-Ray Spectrometry, ANALYTICAL CHEMISTRY 1992, Vol 64, Iss 12, pp R180- R196.
2. Ertugrul M, The vacancy transfer probability dependence on relative L X-ray intensities in the atomic range 57<=Z<=92 at 59.5 keV, NUCL INSTRUM METH B 111 (3-4): 229-233 MAY 1996.
3. Ertugrul M, Buyukkasap E, Erdogan H, Angular dependence of LX-ray relative intensities of uranium and thorium at 59.5 keV, APPL SPECTROSC REV 32 (1-2): 159-165 1997.
4. Ismail AM, Malhi NB, L-shell x-ray relative intensities of some heavy elements excited by 20.48 keV x-rays, X-RAY SPECTROM 29 (4): 317-319 JUL-AUG 2000.
5. Dikmen E, Zararsiz A, Tan M, et al., L-III subshell intensity ratios of Au, SPECTROSC LETT 35 (1): 63-72 2002

Atıf Alan Çalışma: Tekin, Z., Arıkan, P., Efe, N., and Tan, M. “Study of lead Pollution by EDXRF” Analysis Spectroscopy Letters, 32 (4), 1999, 661-669.
1. Polat R, Gurol A, Ekinci N, et al., Determination of ore concentrates by energy dispersive X-ray fluorescence spectrometry, J TRACE MICROPROBE T 21 (1): 63-71 2003.
2. Potts PJ, Ellis AT, Holmes M, et al., X-ray fluorescence spectrometry, J ANAL ATOM SPECTROM 15 (10): 1417-1442 2000.

Atıf Alan Çalışma: Karadag, M., Yücel, H., Tan, M.,. and Özmen, A. “Measurement of thermal neutron cross-sections and resonance integrals for 71Ga(n,)72Ga and 75As(n,)76As by using 241Am-Be neutron source”, Nuclear Instruments and Methods in Physics Research-A, 501 (2-3), 2003, 524.
1. Winchell, D.F. and Sonzogni, A.A., Recent References, Nuclear Data Sheets, 101 (1), 2004, 1-192. DOI: dx.doi.org/10.1016/j.nds.2004.01.001.
2. Van Do Nguyen, et al., Measurement of thermal neutron cross-sections and resonance integrals for179Hf(n,γ)180mHf and 180Hf(n,γ)181Hf reactions at the Pohang neutron facility, Nuclear Instruments and Methods in Physics Research Section B, 266 (1) 2008, 21-29. DOI: dx.doi.org/10.1016/j.nimb.2007.10.012.
3. Van Do Nguyen, et al., Thermal neutron cross-section and resonance integral of the 186W(n,γ)187W reaction, Nuclear Instruments and Methods in Physics Research Section B, 266 (6) 2008, 863-871. DOI: dx.doi.org/10.1016/j.nimb.2008.02.021
4. M.S. Uddin, et al., Measurement of neutron capture cross-section of the 71Ga(n, γ)72Ga reaction at 0.0536 eV energy, Nuclear Instruments and Methods in Physics Research Section B, 266 15) 2008, 3341-3345. DOI: dx.doi.org/10.1016/j.nimb.2008.04.019.
5. Van Do Nguyen, et al., Thermal neutron cross-section and resonance integral of the 98Mo(n,γ)99Mo reaction, Nuclear Instruments and Methods in Physics Research Section B, 267 (3) 2009, 462-468. DOI: dx.doi.org/10.1016/j.nimb.2008.12.003.
6. M.U. Rajput, et al., Measurement of thermal neutron cross section and resonance integral for the 165Ho(n,γ)166gHo reaction, Radiochimica Acta, 97(2) 2009, 63-69. DOI: dx.doi.org/10.1524/ract.2009.1575.