Search Results - "Kaptanoglu, T."

Theia: an advanced optical neutrino detector by Askins, M., Bagdasarian, Z., Barros, N., Beier, E. W., Blucher, E., Bonventre, R., Bourret, E., Callaghan, E. J., Caravaca, J., Diwan, M., Dye, S. T., Eisch, J., Elagin, A., Enqvist, T., Fischer, V., Frankiewicz, K., Grant, C., Guffanti, D., Hagner, C., Hallin, A., Jackson, C. M., Jiang, R., Kaptanoglu, T., Klein, J. R., Kolomensky, Yu. G., Kraus, C., Krennrich, F., Kutter, T., Lachenmaier, T., Land, B., Lande, K., Learned, J. G., Lozza, V., Ludhova, L., Malek, M., Manecki, S., Maneira, J., Maricic, J., Martyn, J., Mastbaum, A., Mauger, C., Moretti, F., Napolitano, J., Naranjo, B., Nieslony, M., Oberauer, L., Orebi Gann, G. D., Ouellet, J., Pershing, T., Petcov, S. T., Pickard, L., Rosero, R., Sanchez, M. C., Sawatzki, J., Seo, S. H., Smiley, M., Smy, M., Stahl, A., Steiger, H., Stock, M. R., Sunej, H., Svoboda, R., Tiras, E., Trzaska, W. H., Tzanov, M., Vagins, M., Vilela, C., Wang, Z., Wang, J., Wetstein, M., Wilking, M. J., Winslow, L., Wittich, P., Wonsak, B., Worcester, E., Wurm, M., Yang, G., Yeh, M., Zimmerman, E. D., Zsoldos, S., Zuber, K.

“…New developments in liquid scintillators, high-efficiency, fast photon detectors, and chromatic photon sorting have opened up the possibility for building a…”
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Characterization of the scintillation response of water-based liquid scintillator to alpha particles, and implications for particle identification by Callaghan, E. J., Kaptanoglu, T., Smiley, M., Yeh, M., Orebi Gann, G. D.

“…Next-generation large-scale neutrino detectors, from Eos , at the 1 t scale, to Theia , at the 10 s-of-kt scale, will utilize differences in both the…”
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Cherenkov and scintillation separation in water-based liquid scintillator using an LAPPDTM by Kaptanoglu, T., Callaghan, E. J., Yeh, M., Orebi Gann, G. D.

“…This manuscript describes measurements of water-based liquid scintillators (WbLS), demonstrating separation of the Cherenkov and scintillation components using…”
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Current Status and Future Prospects of the SNO+ Experiment by Asahi, S., Auty, D. J., Back, A. R., Barnard, Z., Barros, N., Beier, E. W., Biller, S. D., Bonventre, R., Braid, D., Caden, E., Caravaca, J., Carvalho, J., Cavalli, L., Chauhan, D., Chkvorets, O., Clark, K., Coulter, I. T., Cressy, D., Darrach, C., Davis-Purcell, B., Depatie, M. M., Descamps, F., Dunger, J., Falk, E., Ford, R., Grullon, S., Hallman, D., Hans, S., Hartnell, J., Harvey, P., Hedayatipour, M., Heintzelman, W. J., Helmer, R. L., Hreljac, B., Hu, J., Iida, T., Jackson, C. M., Jelley, N. A., Jillings, C., Kamdin, K., Kaptanoglu, T., Kaspar, J., Keener, P., Khaghani, P., Klein, J. R., Knapik, R., Kormos, L. L., Korte, S., Labe, K., Lam, I., Land, B. J., Langrock, S., Lefeuvre, G. M., Leming, E. J., Lidgard, J., Liu, Y., Maio, A., Manecki, S., Maneira, J., Marzec, E., Mastbaum, A., McDonald, A. B., Mekarski, P., Mohan, Y., Mony, E., Mottram, M. J., Novikov, V., O’Keeffe, H. M., O’Sullivan, E., Pershing, T., Prior, G., Prouty, J. C., Quirk, S., Reichold, A., Rose, J., Schumaker, M. A., Schwendener, M. H., Seddighin, M., Segui, L., Seibert, S., Shokair, T. M., Sibley, L., Sinclair, J. R., Sörensen, A., Sonley, T., Stringer, M. I., Svoboda, R., Tatar, J., Tian, L., Tseng, J., Vázquez-Jáuregui, E., Virtue, C., von Krosigk, B., Walker, J. M. G., Waterfield, J., White, R. F., Winchester, T. J., Wright, A., Yeh, M., Zhao, T.

“…SNO+ is a large liquid scintillator-based experiment located 2 km underground at SNOLAB, Sudbury, Canada. It reuses the Sudbury Neutrino Observatory detector,…”
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Möbius-invariant harmonic function spaces on the unit disc by Kaptanoğlu, H. T., Üreyen, A. E.

“…We investigate and identify Möbius-invariant harmonic function spaces on the unit disc. We derive their fundamental properties and establish connections among…”
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Cherenkov and scintillation separation in water-based liquid scintillator using an LAPPD.sup.TM by Kaptanoglu, T, Callaghan, E. J, Yeh, M, Orebi Gann, G. D

“…This manuscript describes measurements of water-based liquid scintillators (WbLS), demonstrating separation of the Cherenkov and scintillation components using…”
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Characterization of the ETEL D784UKFLB 11 in. photomultiplier tube by Barros, N., Kaptanoglu, T., Kimelman, B., Klein, J.R., Moore, E., Nguyen, J., Stavreva, K., Svoboda, R.

“…Not provided…”
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Evidence of Antineutrinos from Distant Reactors Using Pure Water at SNO by Allega, A, Anderson, M R, Andringa, S, Antunes, J, Askins, M, Auty, D J, Bacon, A, Barros, N, Barão, F, Bayes, R, Beier, E W, Bezerra, T S, Bialek, A, Biller, S D, Blucher, E, Caden, E, Callaghan, E J, Cheng, S, Chen, M, Cleveland, B, Cookman, D, Corning, J, Cox, M A, Dehghani, R, Deloye, J, Deluce, C, Depatie, M M, Dittmer, J, Dixon, K H, Di Lodovico, F, Falk, E, Fatemighomi, N, Ford, R, Frankiewicz, K, Gaur, A, González-Reina, O I, Gooding, D, Grant, C, Grove, J, Hallin, A L, Hallman, D, Heintzelman, W J, Helmer, R L, Hu, J, Hunt-Stokes, R, Hussain, S M A, Inácio, A S, Jillings, C J, Kaluzienski, S, Kaptanoglu, T, Khaghani, P, Khan, H, Klein, J R, Kormos, L L, Krar, B, Kraus, C, Krauss, C B, Kroupová, T, Lam, I, Land, B J, Lawson, I, Lebanowski, L, Lee, J, Lefebvre, C, Lidgard, J, Lin, Y H, Lozza, V, Luo, M, Maio, A, Manecki, S, Maneira, J, Martin, R D, McCauley, N, McDonald, A B, Mills, C, Morton-Blake, I, Naugle, S, Nolan, L J, O'Keeffe, H M, Orebi Gann, G D, Page, J, Parker, W, Paton, J, Peeters, S J M, Pickard, L, Ravi, P, Reichold, A, Riccetto, S, Richardson, R, Rigan, M, Rose, J, Rosero, R, Rumleskie, J, Semenec, I, Skensved, P, Smiley, M, Svoboda, R, Tam, B, Tseng, J, Turner, E

“…The SNO+ Collaboration reports the first evidence of reactor antineutrinos in a Cherenkov detector. The nearest nuclear reactors are located 240 km away in…”
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A method to load tellurium in liquid scintillator for the study of neutrinoless double beta decay by Auty, D.J., Bartlett, D., Biller, S.D., Chauhan, D., Chen, M., Chkvorets, O., Connolly, S., Dai, X., Fletcher, E., Frankiewicz, K., Gooding, D., Grant, C., Hall, S., Horne, D., Hans, S., Hreljac, B., Kaptanoglu, T., Krar, B., Kraus, C., Kroupová, T., Lam, I., Liu, Y., Maguire, S., Miller, C., Manecki, S., Rosero, R., Segui, L., Sharma, M.K., Tacchino, S., Tam, B., Tian, L., Veinot, J.G.C., Walton, S.C., Weigand, J.J., Wright, A., Yeh, M., Zhao, T.

“…A method has been developed to load tellurium into liquid scintillator so as to permit searches for neutrinoless double beta decay with high sensitivity. The…”
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Characterization of the ETEL D784UKFLB 11in. photomultiplier tube by Barros, N., Kaptanoglu, T., Kimelman, B., Klein, J.R., Moore, E., Nguyen, J., Stavreva, K., Svoboda, R.

“…Water Cherenkov and scintillator detectors are a critical tool for neutrino physics. Their large size, low threshold, and low operational cost make them…”
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Characterization of the scintillation response of water-based liquid scintillator to alpha particles, and implications for particle identification by Callaghan, E. J, Kaptanoglu, T, Smiley, M, Yeh, M, Gann, G. D. Orebi

“…Next-generation large-scale neutrino detectors, from Eos, at the 1 tonne scale, to Theia, at the 10s-of-ktonne scale, will utilize differences in both the…”
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Cherenkov and Scintillation Separation in Water-Based Liquid Scintillator using an LAPPD by Kaptanoglu, T, Callaghan, E. J, Yeh, M, Gann, G. D. Orebi

“…Eur. Phys. J. C 82-2 (2022) 169 This manuscript describes measurements of water-based liquid scintillators (WbLS), demonstrating separation of the Cherenkov…”
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Measurement of the $^8$B Solar Neutrino Flux Using the Full SNO+ Water Phase by Collaboration, SNO+, :, Anderson, M. R, Andringa, S, Askins, M, Auty, D. J, Bacon, A, Barão, F, Barros, N, Bayes, R, Bialek, A, Biller, S. D, Blucher, E, Caden, E, Callaghan, E. J, Cheng, S, Cleveland, B, Cookman, D, Corning, J, Cox, M. A, Depatie, M. M, Di Lodovico, F, Dima, C, Dittmer, J, Esmaeilian, M. S, Falk, E, Fatemighomi, N, Ford, R, González-Reina, O. I, Gooding, D, Grant, C, Grove, J, Hall, S, Hallin, A. L, Hallman, D, Helmer, R. L, Hewitt, C, Howard, V, Hreljac, B, Hu, J, Huang, P, Hunt-Stokes, R, Hussain, S. M. A, Jillings, C. J, Kaptanoglu, T, Khan, H, Kladnik, J, Klein, J. R, Kormos, L. L, Krar, B, Kraus, C, Krauss, C. B, Kroupová, T, Lake, C, Lebanowski, L, Lefebvre, C, Lozza, V, Luo, M, Maio, A, Manecki, S, Maneira, J, Martin, R. D, McCauley, N, McDonald, A. B, Milton, G, Colina, A. Molina, Morris, D, Nolan, L. J, O'Keeffe, H. M, Gann, G. D. Orebi, Page, J, Paleshi, K, Parker, W, Paton, J, Pickard, L, Ravi, P, Reichold, A, Riccetto, S, Rose, J, Semenec, I, Simms, J, Skensved, P, Smiley, M, Smith, J, Svoboda, R, Tam, B, Tseng, J, Vázquez-Jáuregui, E, Veinot, J. G. C, Virtue, C. J, Weigand, J. J, Wilson, J. R, Wilson, J. D, Wright, A, Yang, S, Yeh, M, Ye, Z, Yu, S, Zhang, Y, Zuber, K

“…The SNO+ detector operated initially as a water Cherenkov detector. The implementation of a sealed covergas system midway through water data taking resulted in…”
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Initial measurement of reactor antineutrino oscillation at SNO by Collaboration, SNO+, :, Anderson, M. R, Andringa, S, Askins, M, Auty, D. J, Bacon, A, Baker, J, Barão, F, Barros, N, Bayes, R, Bezerra, T. S, Bialek, A, Biller, S. D, Blucher, E, Callaghan, E. J, Chen, M, Cleveland, B, Cookman, D, Corning, J, Cox, M. A, Dehghani, R, Deloye, J, Depatie, M. M, Di Lodovico, F, Dima, C, Dittmer, J, Dixon, K. H, Esmaeilian, M. S, Falk, E, Fatemighomi, N, Ford, R, Gaur, A, González-Reina, O. I, Gooding, D, Grant, C, Grove, J, Hallin, A. L, Hallman, D, Heintzelman, W. J, Hewitt, C, Howard, V, Hu, J, Huang, P, Hunt-Stokes, R, Hussain, S. M. A, Inácio, A. S, Jillings, C. J, Kaluzienski, S, Kaptanoglu, T, Kladnik, J, Kormos, L. L, Krar, B, Kraus, C, Krauss, C. B, Kroupová, T, Lake, C, Lefebvre, C, Maio, A, Manecki, S, Maneira, J, Martin, R. D, McCauley, N, McDonald, A. B, Mills, C, Milton, G, Colina, A. Molina, Morris, D, Morton-Blake, I, Mubasher, M, Naugle, S, Nolan, L. J, Gann, G. D. Orebi, Page, J, Paleshi, K, Parker, W, Paton, J, Pickard, L, Quenallata, B, Ravi, P, Reichold, A, Riccetto, S, Rose, J, Rosero, R, Simms, J, Skensved, P, Smiley, M, Smith, J, Svoboda, R, Tam, B, Tseng, J, Vázquez-Jáuregui, E, Veinot, J. G. C, Virtue, C. J, Weigand, J. J, Wilson, J. R, Wilson, J. D, Yang, S, Zhang, Y, Zuber, K

“…The SNO+ collaboration reports its first spectral analysis of long-baseline reactor antineutrino oscillation using 114 tonne-years of data. Fitting the…”
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A Method to Load Tellurium in Liquid Scintillator for the Study of Neutrinoless Double Beta Decay by Auty, D. J, Bartlett, D, Biller, S. D, Chauhan, D, Chen, M, Chkvorets, O, Connolly, S, Dai, X, Fletcher, E, Frankiewicz, K, Gooding, D, Grant, C, Hall, S, Horne, D, Hans, S, Hreljac, B, Kaptanoglu, T, Krar, B, Kraus, C, Kroupova', T, Lam, I, Liu, Y, Maguire, S, Miller, C, Manecki, S, Rosero, R, Segui, L, Sharma, M. K, Tacchino, S, Tam, B, Tian, L, Veinot, J. G. C, Walton, S. C, Weigand, J. J, Wright, A, Yeh, M, Zhao, T

“…Nuclear Inst. and Methods in Physics Research, A 1051 (2023) 168204 A method has been developed to load tellurium into liquid scintillator so as to permit…”
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EOS: a demonstrator of hybrid optical detector technology by Anderson, T, Anderssen, E, Askins, M, Bacon, A. J, Bagdasarian, Z, Baldoni, A, Barros, N, Bartoszek, L, Bergevin, M, Bernstein, A, Blucher, E, Boissevain, J, Bonventre, R, Brown, D, Callaghan, E. J, Cowen, D. F, Dazeley, S, Diwan, M, Duce, M, Fleming, D, Frankiewicz, K, Gooding, D. M, Grant, C, Juechter, J, Kaptanoglu, T, Kim, T, Klein, J. R, Kraus, C, Kroupová, T, Land, B, Lebanowski, L, Lozza, V, Marino, A, Mastbaum, A, Mauger, C, Mayers, G, Minock, J, Naugle, S, Newcomer, M, Nikolica, A, Gann, G. D. Orebi, Pickard, L, Ren, L, Rincon, A, Rowe, N, Saba, J, Schoppmann, S, Sensenig, J, Smiley, M, Song, H, Steiger, H, Svoboda, R, Tiras, E, To, W. H, Trzaska, W. H, Van Berg, R, Veeraraghavan, V, Wallig, J, Wendel, G, Wetstein, M, Wurm, M, Yang, G, Yeh, M, Zimmerman, E. D

“…EOS is a technology demonstrator, designed to explore the capabilities of hybrid event detection technology, leveraging both Cherenkov and scintillation light…”
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Theia: Summary of physics program. Snowmass White Paper Submission by Askins, M, Bagdasarian, Z, Barros, N, Beier, E. W, Bernstein, A, Blucher, E, Bonventre, R, Bourret, E, Callaghan, E. J, Caravaca, J, Diwan, M, Dye, S. T, Eisch, J, Elagin, A, Enqvist, T, Fahrendholz, U, Fischer, V, Frankiewicz, K, Grant, C, Guffanti, D, Hagner, C, Hallin, A, Jackson, C. M, Jiang, R, Kaptanoglu, T, Klein, J. R, Kolomensky, Yu. G, Kraus, C, Krennrich, F, Kutter, T, Lachenmaier, T, Land, B, Lande, K, Lebanowski, L, Learned, J. G, Li, V. A, Lozza, V, Ludhova, L, Malek, M, Manecki, S, Maneira, J, Maricic, J, Martyn, J, Mastbaum, A, Mauger, C, Mayer, M, Migenda, J, Moretti, F, Napolitano, J, Naranjo, B, Nieslony, M, Oberauer, L, Gann, G. D. Orebi, Ouellet, J, Pershing, T, Petcov, S. T, Pickard, L, Rosero, R, Sanchez, M. C, Sawatzki, J, Seo, S. H, Smiley, M, Smy, M, Stahl, A, Steiger, H, Stock, M. R, Sunej, H, Svoboda, R, Tiras, E, Trzaska, W. H, Tzanov, M, Vagins, M, Vilela, C, Wang, Z, Wang, J, Wetstein, M, Wilking, M. J, Winslow, L, Wittich, P, Wonsak, B, Worcester, E, Wurm, M, Yang, G, Yeh, M, Zimmerman, E. D, Zsoldos, S, Zuber, K

“…Theia would be a novel, "hybrid" optical neutrino detector, with a rich physics program. This paper is intended to provide a brief overview of the concepts and…”
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Theia: An advanced optical neutrino detector by Askins, M, Bagdasarian, Z, Barros, N, Beier, E. W, Blucher, E, Bonventre, R, Callaghan, E, Caravaca, J, Diwan, M, Dye, S. T, Eisch, J, Elagin, A, Enqvist, T, Fischer, V, Frankiewicz, K, Grant, C, Guffanti, D, Hagner, C, Hallin, A, Jackson, C. M, Jiang, R, Kaptanoglu, T, Klein, J. R, Kolomensky, Yu. G, Kraus, C, Krennrich, F, Kutter, T, Lachenmaier, T, Land, B, Lande, K, Learned, J. G, Lozza, V, Ludhova, L, Malek, M, Manecki, S, Maneira, J, Maricic, J, Martyn, J, Mastbaum, A, Mauger, C, Napolitano, J, Naranjo, B, Nieslony, M, Oberauer, L, Gann, G. D. Orebi, Ouellet, J, Pershing, T, Petcov, S. T, Picard, L, Rosero, R, Sanchez, M, Sawatzki, J, Seo, S. H, Smiley, M, Smy, M, Stahl, A, Steiger, H, Stock, M. R, Sunej, H, Svoboda, R, Tiras, E, Trzaska, W, Tzanov, M, Vagins, M, Vilela, C, Wang, Z, Wang, J, Wetstein, M, Wilking, M. J, Winslow, L, Wittich, P, Wonsak, B, Worcester, E, Wurm, M, Yang, G, Yeh, M, Zimmerman, E. D, Zuber, K

“…The European Physical Journal C volume 80, Article number: 416 (2020) New developments in liquid scintillators, high-efficiency, fast photon detectors, and…”
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Characterization of the ETEL D784UKFLB 11 inch Photomultiplier Tube by Barros, N, Kaptanoglu, T, Kimmelman, B, Klein, J. R, Moore, E, Nguyen, J, Stavreva, K, Svoboda, R

“…Water Cherenkov and scintillator detectors are a critical tool for neutrino physics.Their large size, low threshold, and low operational cost make them…”
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Search for invisible modes of nucleon decay in water with the SNO+ detector by Collaboration, SNO+, Anderson, M, Arushanova, E, Asahi, S, Back, A. R, Bartlett, D, Barão, F, Bayes, R, Biller, S. D, Blucher, E, Caden, E, Carvalho, J, Cavalli, L, Chauhan, D, Chen, M, Chkvorets, O, Clark, K. J, Cleveland, B, Connors, C, Cressy, D, Darrach, C, Davis-Purcell, B, Depatie, M. M, Descamps, F, Duhaime, N, Duncan, F, Fatemighomi, N, Fischer, V, Ford, R, Grant, C, Grove, J, Hallin, A. L, Hallman, D, Hedayatipour, M, Heise, J, Helmer, R. L, Hernández-Hernández, J. L, Iida, T, Jillings, C. J, Jones, C, Kaptanoglu, T, Kefelian, C, Khaghani, P, Klein, J. R, Kofron, J, Kormos, L. L, Krar, B, Kraus, C, Labe, K, Land, B. J, LaTorre, A, Lefeuvre, G. M, Liggins, B, Liu, Y, Lozza, V, Maio, A, Maneira, J, Martin, R. D, Mastbaum, A, McDonald, A. B, Mekarski, P, Miller, C, Mottram, M. J, O'Keeffe, H. M, O'Sullivan, E, Gann, G. D. Orebi, Parnell, M. J, Paton, J, Petriw, Z, Pracsovics, D, Prior, G, Prouty, J. C, Quirk, S, Richardson, R, Rigan, M, Robertson, A, Rose, J, Secrest, J, Skensved, P, Stainforth, R, Strait, M, Sörensen, A, Tam, B, Tatar, J, Tseung, H. W. C, Turner, E, Veinot, J. G. C, Virtue, C. J, von Krosigk, B, Vázquez-Jáuregui, E, Walker, J. M. G, Wang, J, Weigand, J. J, Wilson, J. R, Winchester, T. J, Woosaree, P, Wright, A, Yanez, J. P, Yeh, M, Zhao, T

“…Phys. Rev. D 99, 032008 (2019) This paper reports results from a search for nucleon decay through 'invisible' modes, where no visible energy is directly…”
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