Hostname: page-component-586b7cd67f-g8jcs Total loading time: 0 Render date: 2024-11-23T15:20:56.507Z Has data issue: false hasContentIssue false
  • English
  • Français

X-Ray Production Cross Sections for Ti, Co, Ge, Rb and Sn by 16 - 44 Mev Oxygen Ion Bombardment*

Published online by Cambridge University Press:  06 March 2019

R. F. Chaturvedi ,
J. L. Duggan ,
T. J. Gray ,
C. C. Sachtleben  and
J. Lin
R. F. Chaturvedi
Affiliation:
T. W. Bonner Nuclear Laboratories, Houston, Texas
J. L. Duggan
Affiliation:
Oak Ridge Associated Universities, Oak Ridge, Tennessee
T. J. Gray
Affiliation:
North Texas State University, Denton, Texas
C. C. Sachtleben
Affiliation:
Hastings College, Hastings, Nebraska
J. Lin
Affiliation:
Tennessee Technological University, Cookeville, Tennessee
Get access

Abstract

Absolute K-shell ionization cross sections were measured for Ti, Co, Ge, Rb, and Sn for incident oxygen ions from 16-44 MeV. The x-rays were measured with a high resolution Si(Li) detector (166 eV at 5.9 keV). All of the data represents cross section measurements for thin targets. The measured cross sections for these elements are compared to the theoretical predictions of the Binary Encounter Approximation (BEA). Kα/Kβ ratios and energy shifts were also extracted from the data. The experimental data are compared to measured cross sections for other elements to give an overview of the systematics for oxygen ion induced x-ray production cross sections in this energy range. Some comment will also be given in regard to the use of oxygen ions to measure the parameters associated with ion implanted semiconductors.

Type
Research Article
Information
Advances in X-Ray Analysis , Volume 17: Twenty-Second Annual Conference on Applications of X-ray Analysis, August 22-24, 1973 , 1973 , pp. 445 - 456
Copyright
Copyright © International Centre for Diffraction Data 1973

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Footnotes

**

On leave from the State University of New York at Cortland, New York

*

Experiments were performed on the Tandem VandeGraaff Accelerator at the Oak Ridge National Laboratory, Oak Ridge, Tennessee

Travel funds were provided by the U.S.A.E.C.

References

1. Chadwick, J., “The γ Rays Excited by the ß Rays of Radium,Phil. Mag, 24, 594 (1912)Google Scholar
2. Coates, W. M., “The Production of X-Rays by Swiftly Moving Mercury Ions,Phy. Rev. 46, 542 (1954)Google Scholar
3. Armbruster, P., “Ionisierung innerer Elektronenschalen bei der Abbremsung von Spaltprodukten,Z. Physik 166, 341 (1962)Google Scholar
4. Armbruster, P., E. Röckl, Specht, H. J., and Vollmer, A., “Die Untersuchung fast-adiabatisdner Stöbe mit Spaltprodukten,A. Naturforsch, 19A, 1301 (1964)Google Scholar
5. Specht, H. J., “Ionisation innerer Elektronenschalen bei fastadiabatischen Stöben schwerer Ionen,Z. Physik 185, 301 (1965)Google Scholar
6. Saris, F. W., “Characteristic X-Ray Production in Heavy-Ion-Atom Collisions,” The Physics of Electronics and Atomic Collisions, Ed. by Grover, T. R. and De Heer, F. J., North Holland Publishing Co., (1972), pg. 181.Google Scholar
7. Richards, P., “X-Ray Production by Heavy Ions,” In Proceedings of the International Conference on Inner Shell Ionization Phenomena and Future Applications, Atlanta, Georgia, 1972, Edited by Fink, R. W., Mahson, S. T., Palms, J. M., and Rao, P. V.; U.S.A.E.C., Oak Ridge, Tennessee (1973)Google Scholar
8. Garcia, J. D., Fortner, R. J., and Kavanagh, T. M., “Inner Shell Vacancy Production in Ion-Atom Collisions,Rev. Mod. Phy., Vol. 45, 111 (1973)Google Scholar
9. Burch, D., Richards, P. and Blake, R. L., “Resolved Structure in Fe Kα X-Rays Produced by 30-MeV Oxygen Ions,Phy. Rev. Letters 26, 1355 (1971)Google Scholar
10. Richards, P., Hodge, W. and Fred Moore, C., “Direct Observation of Kα Hypersatellites in Heavy-Ion Collisions,Phy. Rev. Letters 29, 393 (1972)Google Scholar
11. Garcia, J. D., “Inner-Shell Ionizations by Proton Impact,A Phy. Rev., 1, 280 (1970);” X-Ray Production Cross Sections,” A Phy. Rev., 1, 1402 (1970); “X-Ray Production by Alpha Particle Impact,A Phy. Rev., 4, 955 (1971)Google Scholar
12. Merzbacher, E and Lewis, H. W., “X-Ray Production by Heavy Charged Particles,Handbuch Der Physik (Springerverlag, Berlin) 34, 166 (1958)Google Scholar
13. Basbas, G., Brandt, W. and Roman Laubert, “Universal Cross Sections for K-Shell Ionization by Heavy Charged Particles I. Low Particle Velocities,Phy. Rev. A 7, 983 (1973)Google Scholar
14. Sachtleben, C. C., Duggan, J. L., and Chaturvedi, R. P., “X-Ray Production Cross Sections for Mn, Ni, Cu, Zn, Ge, and Sn by 8–30 MeV Oxygen Ion Bombardment,Bull. Soc Am. Phy., 18, 103 (1973)Google Scholar
15. Simpson, J. J., Cookson, J. A., Ecclesmall, D., and Yates, M. O. L., “Coulomb Excitation of Ti50, Cr52, and Fe54 First Excited States,Nucl, Phy. 62, 385 (1965)Google Scholar
16. Bhalla, C. P. and Hein, M., “Theoretical K-Shell Fluorescence Yield of Multiply Ionized Neon,Phy. Rev. Letters 30, 39 (1973)Google Scholar
17. Bambynek, W., Crasemann, B. Fink, R. W., Freund, H. U., Mark, H., Swift, C. D., Price, R. E., and Rao, P. V., “X-Ray Fluorescence Yields, Auger, and Coster-Kronig Transition Probabilities,Rev. Mod. Phy. 44, 716 (1972)Google Scholar
18. Kavanagh, T. M., Fortner, R. J. and Der, R. C., “Production of Characteristic X-Rays by Heavy Ion Bombardment,” In Proceedings of the International Conference on Inner-Shell Ionization Phenomena and Future Applications, Atlanta, Georgia, 1972, Ed. by Fink, R. W., Mahson, S. T., Palms, J. M., and Rao, P. V. U.S.A.E.G., Oak Ridge, Tennessee (1973)Google Scholar
19. Burch, D and Richards, P., “X-Ray Spectra from Oxygen-Ion Bombardments on Ca and V at 15 MeV,Phy. Rev. Letters 25, 983 (1970)Google Scholar
20. Saltmarsh, M. J., A. Van der Woude and Ludermann, C. A., “Energy Shifts and Relative Intensities of K X-Rays Produced by Swift Heavy Ions,Phy. Rev. Letters 29, 329 (1972)Google Scholar
21. Basbas, G., Brandt, W. and Roman Laubert, “Z1 Dependence of K-Shell X-Ray Production by Heavy Charged Particles,Phy. Letters 34A, 277 (1971)Google Scholar
22. Basbas, G., Brandt, W. Laubert, R., Ratkowski, A. and Schwarschild, A., “Projectile Charge Dependence of K-Shell Ionization by Swift Light Nuclei,Phy. Rev. Letters 27, 171 (1971)Google Scholar