Transient Photocurrent in Amorphous Silicon Radiation Detectors

  • Published : 1997.12.01

Abstract

The transient photocurrent in amorphous silicon radiation detectors (n-i-n and forward biased p-i-n) were analyzed. The transient photocurrents in these devices could be modeled using multiple trap levels in the forbidden gap. Using this model the rise and decay shapes of the photocurrents could be fitted. The decaying photocurrent shapes of the p-i-n and n-i-n devices after a short duration of light pulse showed a similar behavior at low dark current density levels, but at higher dark current density levels the photocurrent of the p-i-n diode decayed faster than that of the n-i-n, which could be explained by the decreased electron lifetimes in the forward biased p-i-n diode at high dark current densities. The transient photoconductive gain behaviors in the amorphous silicon radiation detectors are discussed in terms of device configuration, dark current density and time scale.

Keywords

References

  1. Nucl. Instr. And Meth. A v.252 Detection of Charged Particles in Amorphous Silicon Layers V. Perez-Mendez;J. Morel;S. N. Kaplan;R. A. Street
  2. J. Non-Cryst. Solids v.137;138 Two Operation Modes of 2D a-Si Sensor Arrays for Radiation Imaging I. Fujieda;S. Nelson;P. Nylen;R. A. Street;R. L. Weisfield
  3. IEEE Trans. Nucl. Sci. v.38 X-Ray and Charged Particle Detection with CsI(TI) Layer Coupled to a-Si:H Photodiode Layers I. Fujieda;G. Cho;J. S. Drewery;T. Gee;T. Jing;S. N. Kaplan;V. Perez-Mendez;D.Wildermuth
  4. IEEE Trans. Nucl. Sci. v.41 High Efficiency Neutron Sensitive Amorphous Silicon Pixel Detectors A. Mireshghi;G. Cho;J. S. Drewery;W. S. Hong;T. Jing;H. K. Lee;S. N. Kaplan;V. Perez-Mendez
  5. IEEE Trans. Nucl. Sci. v.39 Radiation Imaging with 2D a-Si Sensor Arrays I. Fujieda;S. Nelson;R. A. Street;R. L. Weisfield
  6. SPIE Proc. v.1896 Large Area, Flat-Panel a-Si:H Arrays for X-Ray Imaging L. E. Antonuk;J. Yorkston;W. Huang;J. Boudry;E. J. Morton
  7. MRS Symp. Proc. v.377 Photoconductive Gain in Hydrogenated Amorphous Silicon Devices And Its Applications H. K. Lee;J. S. Drewery;W. S. Hong;T. Jing;S. N. Kaplan;V. Perz-Mendez
  8. Semiconductors and Semimetals v.21 J. I. Pankove
  9. Photoconductivity of Solids R. H. Bube
  10. Concepts in Photoconductivity and Allied Problems Rose
  11. J. Appl. Phys. v.73 Bias-Voltage and Bias-Light-Dependent High Photocurrent Gains in Amorphous Silicon Schottky Barriers F. A. Rubinelli;J. Y. Hou;S. J. Fonash
  12. J. Non-Cryst. Solids v.164-166 Effect of Light-Induced Degrandation on Photoconductive Gain in a-Si:H n-i-p devices R. Vanderhaghen;R. Amokrane;D. Han;M. Silver