investigations of spectral distribution of compton scattered gamma rays from k-shell electrons of...

INVESTIGATIONS OF SPECTRAL DISTRIBUTION OF COMPTON SCATTERED GAMMA RAYS FROM K-SHELL ELECTRONS OF TIN USING 662 keV PHOTONS JAGJIT KAUR, R. DEWAN, BHAJAN SINGH, B. S. SANDHU and B. S. GHUMMAN Physics Department, Punjabi University, Patiala-147002, India For bound electrons, Compton scattering deviates significantly from Klein-Nishina values. Many in- vestigators (Kane, 1992) work with dierent tech- niques involving various approaches to understand this deviation. The common conclusion of these stu- dies is that K-shell Compton scattering cross-sec- tions are significantly smaller than Klein-Nishina values at small scattering angles and the K-shell Compton peak is broadened. Some authors have shown the presence of infra red divergence and an high energy tail. But the results regarding the shift of the K-shell Compton peak from the free electron peak are not conclusive. Some authors predict posi- tive defect while others show no defect or negative defect. To investigate the shift of Compton peaks from free electron peaks we have measured the spectral distribution of Compton scattered gamma rays from K-shell electrons of tin at 662 keV at scattering angles of 20, 25, 30, 50 and 110 degrees. The experimental arrangement used in the present measurement has been discussed earlier(Kaur et al., 1996). An 8 curie Cs–137 radioactive source prop- erly shielded with lead is used to obtained 662 keV gamma rays. A thin uniform tin foil having thick- ness of 30 mg cm -2 and diameter 40 mm was used as scatterer. Two NaI(Tl) spectrometers working in coincidence were used to record events. The observed spectra show a broadening of the peak but this broadening is quite small as predicted by various theories. The results obtained are shown in Table 1. Peaks at all angles are shifted to the high energy side and the presence of infra red divergence and high energy tails have not been observed. REFERENCES Kane, P. P. (1992) Inelastic scattering of X-Rays and Gamma rays by Inner shell electrons. Physics Reports 218, 67. Kaur, J., Singh, B., Sandhu, B. S. and Ghumman, B. S. (1996) Measurement of K-shell Compton scattering from tin at 662 KeV gamma rays using fluorescence gamma coincidence technique. J. Instrument Soc, India 26(3), 52. Radiat. Phys. Chem. Vol. 51, No. 4–6, p. 377, 1998 # 1998 Elsevier Science Ltd. All rights reserved Printed in Great Britain 0969-806X/98 $19.00 + 0.00 PII: S0969-806X(97)00145-X Table 1. Peak position, FWHM and defect in Compton shift in experimental spectra at various angular positions y in degrees Free electron Compton peak K-shell electron Compton peak Theory (keV) Expt. (keV) FWHM (keV) Expt keV FWHM(keV) Defect (keV) 20 613.7 612 104 628 130 +16 25 590.1 590 100 612 128 +22 30 563.8 564 94 588 122 +24 50 452.4 452 82 478 116 +26 110 241.7 240 60 262 102 +22 377

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INVESTIGATIONS OF SPECTRAL DISTRIBUTION OF

COMPTON SCATTERED GAMMA RAYS FROM K-SHELL

ELECTRONS OF TIN USING 662 keV PHOTONS

JAGJIT KAUR, R. DEWAN, BHAJAN SINGH, B. S. SANDHU andB. S. GHUMMAN

Physics Department, Punjabi University, Patiala-147002, India

For bound electrons, Compton scattering deviatessigni®cantly from Klein-Nishina values. Many in-vestigators (Kane, 1992) work with di�erent tech-

niques involving various approaches to understandthis deviation. The common conclusion of these stu-dies is that K-shell Compton scattering cross-sec-

tions are signi®cantly smaller than Klein-Nishinavalues at small scattering angles and the K-shellCompton peak is broadened. Some authors haveshown the presence of infra red divergence and an

high energy tail. But the results regarding the shiftof the K-shell Compton peak from the free electronpeak are not conclusive. Some authors predict posi-

tive defect while others show no defect or negativedefect. To investigate the shift of Compton peaksfrom free electron peaks we have measured the

spectral distribution of Compton scattered gammarays from K-shell electrons of tin at 662 keV atscattering angles of 20, 25, 30, 50 and 110 degrees.

The experimental arrangement used in the presentmeasurement has been discussed earlier(Kaur et al.,1996). An 8 curie Cs±137 radioactive source prop-

erly shielded with lead is used to obtained 662 keVgamma rays. A thin uniform tin foil having thick-ness of 30 mg cm-2 and diameter 40 mm was used

as scatterer. Two NaI(Tl) spectrometers working incoincidence were used to record events. Theobserved spectra show a broadening of the peak

but this broadening is quite small as predicted byvarious theories. The results obtained are shown inTable 1. Peaks at all angles are shifted to the highenergy side and the presence of infra red divergence

and high energy tails have not been observed.

REFERENCES

Kane, P. P. (1992) Inelastic scattering of X-Rays andGamma rays by Inner shell electrons. Physics Reports218, 67.

Kaur, J., Singh, B., Sandhu, B. S. and Ghumman, B. S.(1996) Measurement of K-shell Compton scatteringfrom tin at 662 KeV gamma rays using ¯uorescencegamma coincidence technique. J. Instrument Soc, India26(3), 52.

Printed in Great Britain0969-806X/98 $19.00+0.00PII: S0969-806X(97)00145-X

Table 1. Peak position, FWHM and defect in Compton shift in experimental spectra at various angular positions

y in degrees Free electron Compton peak K-shell electron Compton peak

Theory (keV) Expt. (keV) FWHM (keV) Expt keV FWHM(keV) Defect (keV)

20 613.7 612 104 628 130 +1625 590.1 590 100 612 128 +2230 563.8 564 94 588 122 +2450 452.4 452 82 478 116 +26110 241.7 240 60 262 102 +22

377

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