Proton induced radiation damage studies on plastic scintillators for the Tile calorimeter of the atlas detector
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- Figure 3-4: Photographs of plastic scintillators under study
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3.3.
Description of plastic scintillators under study Four commercial plastic scintillators (EJ200, EJ208, EJ260 and BC408) and two types employed by the ATLAS detector (UPS923A and TileCal) were investigated. The plastics are composed of either a polyvinyl to luene (PVT) or polystyrene (PS) base. Polyvinyl toluene consists of long chains of vinyl toluene molecules which comprise of a benzene ring bonded to a methyl group (CH 3 ) and a vinyl group (CH 2 -CH-). Polystyrene consists of long chains of styrene monomers . Styrene is very similar to vinyl toluene except that it does not contain a methyl group. In both polymers, the benzene ring gives rise to the delocalized π-electrons. All the scintillators investigated were blue emitting, with the exception of EJ260 whic h emits light in the green wavelength region. Details on their composition and properties are listed in the Table 3-1. Figure 3-4: Photographs of plastic scintillators under study 21 Table 3-1: Table summarising the various properties of the scintillators under study. Scintillator EJ200 EJ208 EJ260 BC408 UPS923A Protvino Manufactured by: Eljen Technology Eljen Technology Eljen Technolog y Saint Gobain Crystals Institute of Scintillating Materials, Kharkiv. (Used in MBTS) Institute of High Energy Physics (IHEP), Protvino in association with SIA luch, Podolsk. (Used in Tile Barrel) Base PVT PVT PVT PVT PS PS Primary Fluor 0.3% organic fluors 0.3% organic fluors 0.3% organic fluors Not available (However, listed as a performance equivalent of EJ200) 2% PTP 1.5% PTP Secondary Fluor 0.03% POPOP 0.044% POPOP Light Output, % Anthracene 64 60 60 64 60 Not available Wavelength of Max. Emission, nm 425 435 490 425 425 Rise Time, ns 0,9 1 ~ 0,9 0,9 Decay Time, ns 2,1 3,3 9,2 2,1 3,3 Density, g/cc: 1,023 1,023 1,023 1,032 1,06 Refractive Index 1,58 1,58 1,58 1,58 1,6 Light attenuation length (cm) ~400* ~400* ~400* 380** 400 Source [21] [22] [23] [24] *In a cast sheet of dimensions 2 cm x 20 cm x 300 cm **In a cast sheet of dimensions 1 cm x 20 cm x 200 cm 22 The Protvino type plastic scintillators were manufactured specifically for the Tile Calorimeter using an injection molding technique. The design of the scintillator was specifically geared towards cutting cost of manufacture since these scintillators were to be used in the barrels and would require a large quantity of material. In comparison to a similar Bicron RH4 cast scintillator, the Protvino scintillator yielded ~2.5 times less light in response to ~3 MeV minimum ionizing beta particles from a Ru 106 source [25]. Studies were also conducted by the Institute of High Energy Physics (IHEP) team, into the effect of changing concentration of the fluors. For an increase in PTP concentration from 0.1% to 0.2%, the light output increased by 10% , whilst an increase in concentration of POPOP from 0.02% to 0.1% had little effect on light yield [24]. Since UPS923A scintillators are very similar in composition to the Protvino type, with the exception of different concentrations of fluors, we can assume that they are the better performing of the two in terms of light response. UPS923A is marketed by the manufacturer as being a good general purpose scintillator with good transparency. EJ200 and BC408 are recommended by their respective manufacturers, for use in time of flight systems which require large area coverage due to their short rise and decay times. They also have the highest light output from the 6 scintillators investigated. EJ208 has a longer emission wavelength than EJ200, and is ideal for systems in which uniformity of light collection is of utmost importance, whilst timing takes a secondary priority. In addition, EJ208 is predicted to offer greater tolerance against radiation damage since damage results in the increased optical attenuation of light at shorter wavelengths. EJ260 has the longest emission wavelength and shifts light to the green spectrum. It is therefore proposed to offer greater radiation tolerance than conventional blue emitting plastic scintillators and can still be coupled to common blue sensitive phototubes. |