Proton induced radiation damage studies on plastic scintillators for the Tile calorimeter of the atlas detector
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Raman Spectroscopy
Raman spectroscopy was conducted in order to identify if a change in species occurs within the scintillators when subjected to radiation damage. The Raman Effect is the result of inelastic scattering of light, whereby incoming photons interact with lattice phonons to cause virtual excitations. These virtual excitations then de-excite by releasing a photon of wavelength corresponding to a specific virtual mode. These Raman active modes are characteristic of certain bonding structures. Thus, from a Raman spectrum, one can identify the specie and bonding structure within a solid by identifying their corresponding peaks. Raman spectra were obtained for the un-irradiated control samples as well as on the 0.8 MGy, 8 MGy and 25 MGy irradiated samples using the LabRAM HR Raman spectrograph. A 514 nm Argon laser was used to excite the Raman modes. The spectrograph was calibrated using the 579 cm -1 peak (yellow doublet) expected from a mercury discharge lamp. The Rayleigh peak that results from elastic light scattering was eliminated by using a notch filter. The noise of plasma lines that arise from the laser were filtered out with an interference filter. Raman studies for the 0.8 MGy samples were conducted 10 days after irradiation while 8 MGy and 25 MGy samples were tested 4 weeks and 6 weeks after irradiation respectively. Spectra obtained were analysed using the LabSpec5 software tool. 36 5 Results and analysis 5.1. Observations After irradiation, samples obtained a yellow to brown discolouration as dose exposure increased. After removal from the microprobe, samples were exposed to air and a fading of the discolouration was observed. For the 800 kGy irradiated samples, the fading occurred within several minutes from removal and irradiated regions needed to be marked quickly so as to discern the irradiated spot. The higher dose irradiated samples had a more gradual fade, with a region of permanent discolouration remaining after several days. Figure 5-1 shows the discolouration after irradiation in EJ208 samples of different doses. Figure 5-2 shows two ~25 MGy irradiated samples after they have healed and some of the discolouration has faded. Yüklə 8,51 Mb. Dostları ilə paylaş:
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