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Time-resolved luminescence measurements on upconversion phosphors for electron beam sterilization monitoring

 
: Reitzig, M.; Härtling, T.; Winkler, M.; Powers, P.; Derenko, S.; Toro, C.; Röder, O.; Optiz, J.

:

Peters, K.J. ; Society of Photo-Optical Instrumentation Engineers -SPIE-, Bellingham/Wash.:
Smart Sensor Phenomena, Technology, Networks, and Systems Integration 2013 : San Diego, California, USA, March 10-14, 2013
Bellingham, WA: SPIE, 2013 (Proceedings of SPIE 8693)
ISBN: 978-0-8194-9476-4
Paper 86930R
Conference "Smart Sensor Phenomena, Technology, Networks, and Systems Integration" <2013, San Diego/Calif.>
English
Conference Paper
Fraunhofer IZFP, Institutsteil Dresden ( IKTS-MD) ()

Abstract
We present our recent investigations on time-resolved measurements of alterations in the temporal luminescence decay of upconversion phosphors induced by electron beam treatment. The latter is a promising alternative to low-temperature and dry sterilization of surfaces for sensitive packaging materials. Especially in the food and medical sector regulations concerning sterility are increasingly tightened. For this, a secure proof for electron-beam-assisted sterilization is required. However, no non-destructive and in situ method exists up to now. Our approach to provide a secure proof of sterilization is to place a suitable marker material based on rare-earth-doped phosphors inside or on top of the packaging material of the respective product. Upon electron irradiation the marker material changes its luminescent properties as a function of applied energy dose. We verified the energy dependence by means of time-resolved measurements of the luminescent decay of different upconversion materials. In our experimental realization short laser pulses in the near-infrared range excite the marker material. The emitted light is spectrally resolved in a monochromator, collected via a silicon photo diode, and analyzed with an oscilloscope. As the main results we observe a reduction of luminescence lifetime due to electron beam treatment dependent on the emission wavelength. Hence, the electron beam induces changes in the particles' up- and down-conversion properties from which the applied energy dose can be derived.

: http://publica.fraunhofer.de/documents/N-243544.html