CMOS Direct Radiation Sensors

  1. E. Pikhay, Y.Nemirovsky, M.Gutman, G.Villani, Y.Roizin, Radiation sensor based on C-Flash floating gate device, TJ2, Vol. 3, June 2012, pp. 13-16
  2. E. Pikhay, Y.Nemirovsky, M.Gutman, G.Villani, Y.Roizin, “Radiation sensor based on C-Flash floating gate device”, Journal of TowerJazz, 1-5, November 2012.
  3. E. Pikhay, Y. Nemirovsky, Y. Roizin and V. Dayan, Array-Type Floating Gate Radiation Sensors, TowerJazz Technical Journal, Vol 4, July 2013.
  4. E. Pikhay, Y.Nemirovsky, Y.Roizin, V.Dayan, Array-type floating gate radiation sensors, TJ2, Vol. 4 July 2013, pp. 23-24.
  5. G. Villani, M. Crepaldi, D. DeMarchi, A. Gabrielli, A. Khan, E. Pikhay, Y. Roizin,A. Rosenfeld, Z. Zhang,, A monolithic 180 nm CMOS Dosimeter for In Vivo Dosimtry medical application, Radiation Measurements, 71 (2014), pp. 389-391.
  6. Evgeny Pikhay, Yacov Roizin and Y. Nemirovsky, “Characterization of Single Poly Direct Radiation Sensors”, Electron Device Letters, April 2015 (accepted).
  7. E. Pikhay, Y. Roizin, Y Nemirovsky, Degradation study of single poly radiation sensors by monitoring charge trapping, Microelectronics Reliability, January 2016, DOI: 10.1016/j.microrel.2015.12.032.
  8. G. Villani, M. Crepaldi, D. DeMarchi, A. Gabrielli, A. Khan, E. Pikhay, Y. Roizin, A. Rosenfeld, Z. Zhang, A monolithic 180 nm CMOS dosimeter for wireless In Vivo Dosimetry, Radiation Measurements, 84 (2016), pp.55-64.
  9. E. Pikhay, Y.Roizin and Y.Nemirovsky, “Ultra-Low Power Consuming Direct Radiation Sensors Based on Floating Gate Structures”, Low Power Electron. Appl. 2017, 7, 20; doi:10.3390/jlpea7030020.