File produced by: Leila Shook & Thibault Laplace on 08/30/2024.
Updated 1/14/2025: corrected errors in reported values for Tkaczyk2018NIMA882 (Thibault Laplace)
Updated 3/19/2025: reported dynode signal for consistency Tkaczyk2018NIMA882 (Leila Shook)
Tkaczyk2018NIMA882 -- https://doi.org/10.1016/j.nima.2017.10.088
-- 30x40 cm sheets of EJ-200 with thicknesses 1.27, 2, 2.5 cm
-- ET9214B PMT, response not measured. Both last dynode and anode signals provided.
-- DT5730B 14 bit 500MS/s or DT5751 10 bits 1GS/s digitizers
-- Integration length: 200 ns
-- Light calibration: Using 238PuC source: 6130 keV gamma, Compton edge at 5884 keV e-
-- Significant non linearity is observed in the electron light: L/E(477 keV) ~= 0.75*L/E(5884keV), possibly also due to PMT response
-- Method to extract proton light yield: Li(p,n), d(d,n), t(d,n) reactions
-- Method to extract proton light yield: edge characterization with trial response fed to Monte Carlo
-- Proton recoils: 1.3-3.2 MeV, 4.0-6.5 MeV, 17.5-19.0 MeV
-- Fit function: L(Ep) = a*Ep+ b1*Ep*Ep/(1+b2*Ep) L in keVee, E in keV
a = 0.090(15), b = 5.92(5)e-5, c=3.10(6)e-5
-- Uncertainties on fit parameters, not provided for data points
Electron Energy (keV), Relative Electron Light Yield per unit energy (normalized at 5884 keV)
-- 12.7 mm thick EJ-200, Dynode signal
474, 0.78
2428, 0.883
4287, 0.964
5969, 1.00
-- 20.0 mm thick EJ-200, Dynode signal
485, 0.757
2408, 0.852
4268, 0.943
5969, 1.00
-- 25 mm thick EJ-200, Dynode signal
483, 0.745
2406, 0.843
4266, 0.932
5969, 1.00
Proton Energy (keV), Light (MeVee)
For 25-mm thick EJ-200, Dynode signal
1300, 0.200
1460, 0.247
1590, 0.275
1750, 0.326
1940, 0.382
2200, 0.460
2460, 0.551
2870, 0.680
3160, 0.796
4058, 1.21
4570, 1.46
5050, 1.74
5620, 2.05
6070, 2.36
6520, 2.61
17600, 13.4
18100, 13.8
18600, 14.3
19100, 14.6