Materialforschung mit Positronen: Von der Doppler-Spektroskopie zur
Materialforschung mit Positronen: Von der Doppler-Spektroskopie zur
Materialforschung mit Positronen: Von der Doppler-Spektroskopie zur
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[161] D.C. Tennant, P. Martel, W.J.L. Buyers, S.M. Kim, Automatic corrections for deadtime<br />
effects and lineshape changes due to source decay in positron-annihilation experiments,<br />
Nucl. Instr. Meth. 118 (1974) 367<br />
[162] F. Ajzenberg-Selove, Energy Levels of the Light Nuclei A=5-10, Nucl. Phys. A 320<br />
(1979) 1<br />
[163] W. Press, S. Teukolski, W. Vetterling, B. Flannery, Numerical Recipes in C, Cambridge<br />
University Press (1999)<br />
[164] R.G. Helmer, C.M. McCullagh, GAUSS VII, a computer program for the analysis of<br />
-ray spectra from Ge semiconductor spectrometers, Nucl. Instr. Meth. 206 (1983) 477<br />
[165] D.W. Marquardt, An algorithm for least-squares estimation of non-linear parameters, J.<br />
Soc. Ind. Appl. Math. 11 (1963) 431<br />
[166] R.G. Helmer, C.M. McCullagh, GAUSS VII, a computer program for the analysis of -<br />
ray spectra from Ge semiconductor spectrometers, Nucl. Instr. Meth. 206 (1983) 477<br />
[167] R.G. Helmer, M.A. Lee, Analytical functions for fitting peaks from Ge semiconductor<br />
detectors, Nucl. Instr. Meth. 178 (1980) 499<br />
[168] G.W. Phillips, K.W. Marlow, Automatic analysis of gamma-ray spectra from germanium<br />
detectors, Nucl. Instr. Meth. 137 (1976) 525<br />
[169] J.A. Jackman, I.K. MacKenzie, J.L. Campbell, H.H. Jorch, Analytic fitting of fullenergy<br />
peaks in Ge(Li) spectra at high count rates, Nucl. Instr. Meth. 172 (1980) 583<br />
[170] M. Rasulbaev, K. Maier, R. Vianden, T. Thümmler, B. Ostrick, C. Weinheimer, Production<br />
of 83 Rb for the KATRIN experiment, Appl. Radiat. Isotopes, to be sub<strong>mit</strong>ted<br />
(2007)<br />
[171] M. Alatalo, B. Barbiellini, M. Hakala, H. Kauppinen, T. Korhonen, M.J. Puska, K.<br />
Saarinen,P. Hautojärvi, R.M. Nieminen, Theoretical and experimental study of positron<br />
annihilation with core electrons in solids, Phys. Rev. B 54 (1996) 2397<br />
[172] W. Egger, G. Bischof, V. Gröger, G. Krexner, Identification of Defect Sites in FeAl by<br />
<strong>Doppler</strong> Spectroscopy of Core Electrons, Mater. Sci. Forum 363-365 (2001) 82<br />
[173] Y. Nagai, T. Honma, Z. Tang, K. Hono, M. Hasegawa, Coincidence <strong>Doppler</strong> broadening<br />
study of the pre-precipitation stage of an Al-Cu-Mg-Ag alloy, Phil. Mag. A 82<br />
(2002) 1559<br />
[174] Y. Nagai, Z. Tang, H. Ohkubo, K. Takadate, M. Hasegawa, Elemental analysis of positron<br />
affinitive site in materials by coincidence <strong>Doppler</strong> broadening spectroscopy, Rad.<br />
Phys. Chem. 68 (2003) 381<br />
[175] K.G. Lynn, J.R. MacDonald, R.A. Boie, L.C. Feldman, J.D. Gabbe, M.F. Robbins, E.<br />
Bon<strong>der</strong>up, J. Golovchenko, Positron-Annihilation Momentum Profiles in Aluminum:<br />
Core Contribution and the Independent-Particle Model, Phys. Rev. Lett. 38 (1977) 241<br />
[176] K.G. Lynn, J.E. Dickman, W.L. Brown, M.F. Robbins, E. Bon<strong>der</strong>up, Vacancies studied<br />
by positron annihilation with high-momentum core electrons, Phys. Rev. B 20 (1979)<br />
3566<br />
[177] S. Matsui, Precise Radiation Energy and Core Electron Contribution of Positron Annihilation<br />
in Al Studied with Two Ge(Li) Detectors, J. Phys. Soc. Jpn. 61 (1992) 187<br />
154