Quenching the scintillation in CF4 Cherenkov gas radiator by Blake, T, D׳Ambrosio, C, Easo, S, Eisenhardt, S, Fitzpatrick, C, Forty, R, Frei, C, Gibson, V, Gys, T, Harnew, N, Hunt, P, Jones, C, Lambert, R, Matteuzzi, C, Muheim, F, Papanestis, A, Perego, D, Piedigrossi, D, Plackett, R, Powell, A, Topp-Joergensen, S, Ullaland, O, Websdale, D, Wotton, S, Wyllie, K

“…CF<inf>4</inf> is well known to have a high scintillation photon yield in the near and far VUV, UV and in the visible wavelength range. …”

CRESST-II: dark matter search with scintillating absorbers by Angloher, G, Bucci, C, Cozzini, C, von Feilitzsch, F, Frank, T, Hauff, D, Henry, S, Jagemann, T, Jochum, J, Kraus, H, Majorovits, B, Ninkovic, J, Petricca, F, Probst, F, Ramachers, Y, Rau, W, Seidel, W, Stark, M, Uchaikin, S, Stodolsky, L, Wulandari, H

“…In the CRESST-II experiment, scintillating CaWO4 crystals are used as absorbers for direct WIMP (weakly interacting massive particles) detection. …”

Development of techniques for characterisation of scintillation materials for cryogenic application by Mikhailik, V, Kraus, H

Results from a scintillator test deployment in SNO+ by O'Keeffe, H, Kraus, C, Wan Chan Tseung, H, Wilson, JR

“…A study of several optical properties of linear alkylbenzene scintillator were made using a source deployment in the SNO+ detector. © 2012 Elsevier B.V.…”

Thermally-driven scintillator flow in the SNO+ neutrino detector by Wilson, JD

“…<p>The SNO+ neutrino detector is an acrylic sphere (radius 6&nbsp;m) with a thin vertical neck containing almost 800 tonnes of liquid scintillator. The apparatus is immersed in a water-filled underground cavern, the neck protruding upward into a manifold above water level, with scintillator filling the sphere and rising up the neck some 6&nbsp;m to an interface with purified nitrogen gas. …”

Perovskite: Scintillators, direct detectors, and X-ray imagers by Jana, A, Cho, S, Patil, SA, Meena, A, Jo, Y, Sree, VG, Park, Y, Kim, H, Im, H, Taylor, RA

“…We also cover the critical issues and solutions that HPs as detectors, scintillators, and imagers face.…”

Cryogenic phonon-scintillation detectors with NTD germanium readout by Coulter, P

“…Baseline resolutions of 1.7 keV and 2.5 keV, respectively, were achieved for the calcium molybdate and calcium tungstate phonon detectors. A working scintillation light detector was demonstrated as part of a phonon-scintillation detector module with a suggested application in double-beta decay searches.…”

Development of techniques for characterisation of scintillation materials for cryogenic application by Mikhailik, V, Kraus, H

“…The technique is especially advantageous for the analysis of slow scintillation processes and the investigation of temperature-dependent scintillator properties. …”

Performance of ZnSe-based scintillators at low temperatures by Galkin, S, Rybalka, I, Sidelnikova, L, Voloshinovskii, A, Kraus, H, Mykhaylyk, V

“…Applications that utilize scintillation detectors at low temperatures are growing in number. …”

Supernova neutrinos and measurement of liquid scintillator backgrounds in SNO+ by Wang, JS

“…</p> <p>SNO+, the successor of the Sudbury Neutrino Observatory (SNO), is a 780-tonne liquid scintillator detector located 2 km underground in Sudbury, Canada. …”

Hadronic shower development in Iron-Scintillator Tile Calorimetry by Amaral, P, Amorim, A, Anderson, K, Barreira, G, Benetta, R, Berglund, S, Biscarat, C, Blanchot, G, Blucher, E, Bogush, A, Bohm, C, Boldea, V, Borisov, O, Bosman, M, Bromberg, C, Budagov, J, Burdin, S, Caloba, L, Carvalho, J, Casado, P, Castillo, M, Cavalli-Sforza, M, Cavasinni, V, Chadelas, R, Chirikov-Zorin, I

“…The lateral and longitudinal profiles of hadronic showers detected by a prototype of the ATLAS Iron-Scintillator Tile Hadron Calorimeter have been investigated. …”

MgWO4-A new crystal scintillator by Danevich, F, Chernyak, D, Dubovik, A, Grinyov, B, Henry, S, Kraus, H, Kudovbenko, V, Mikhailik, V, Nagornaya, L, Podviyanuk, R, Polischuk, O, Tupitsyna, I, Vostretsov, Y

“…The photoelectron output of the MgWO4 crystal scintillator is 35% that of CdWO4 and 27% that of NaI(Tl). …”

Cresst-II: dark matter search with scintillating absorbers by Angloher, G, Bucci, C, Cozzini, C, von Feilitzsch, F, Frank, T, Hauff, D, Henry, S, Jagemann, T, Jochum, J, Kraus, H, Majorovits, B, Ninkovic, J, Petricca, F, Probst, F, Ramachers, Y, Rau, W, Seidel, W, Stark, M, Uchaikin, S, Stodolsky, L, Wulandari, H

“…In the CRESST-II experiment, scintillating CaWO4 crystals are used as absorbers for direct weakly interacting massive particles (WIMP) detection. …”

Doped plastic scintillator properties for soft tissue dosimetry by Tajudin, S. M., Namito, Y., Sanami, T., Hirayama, H., Hashim, S.

“…The effect of a 0.5 % lead doping scintillator is sufficient to make up for the loss or difference between soft tissues and plastic scintillators in response to low energy photons, particularly below 200 keV.…”

Stability test for NaI(TI) scintillation detector by Susiapan, Yvette Shaan Li, Abdul Rahim, Ruzairi, Mohd. Zain, Rasif, Wahab, Ahmad Ridhwan, Abdul Wahid, Herman, Ishak, M. H. I., Bunyamin, Salinda, Md. Yunus, Yusri, Leow, Peiling

“…The objective of this endeavor is to present a brief description of a stability test performed on a NaI(TI) scintillation detector to determine its most suitable operating voltage range. …”
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First test of a cryogenic scintillation module with a CaWO4 scintillator and a low-temperature photomultiplier down to 6 K by Kraus, H, Mikhailik, V

“…The scintillation module was composed of a CaWO 4 scintillator and a low-temperature PMT D745B from ET Enterprises. …”

Multiple photon counting coincidence (MPCC) technique for scintillator characterisation and its application to studies of CaWO4 and ZnWO4 scintillators by Kraus, H, Mikhailik, V, Wahl, D

“…We describe a new method for measurements of the scintillation characteristics of crystals. The multiple photon counting coincidence (MPCC) technique involves recording the sequence of individual photon pulses resulting from a scintillation event. …”

Analysis of gamma-ray scintillation spectra by the method of least squares / by 352394 Salmon, L.

New Possibilities for 14c Measurements by liquid scintillation counting / by 214640 Aravena, Ramon

Subjects: “…Liquid scintillation counting…”

Classification of Partial Discharges Recorded by the Method Using the Phenomenon of Scintillation by Aleksandra Płużek, Łukasz Nagi

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