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1. CANDLES-III detector: Low-background spectrometer for studying neutrino-less double [formula omitted] decay of 48Ca

Author

Ajimura, S., Akutagawa, K., Batpurev, T., Doukaku, F., Fushimi, K., Hazama, R., Ichimura, K., Iida, T., Kakubata, H., Kanagawa, K., Katagiri, S., Khai, B.T., Kishimoto, T., Li, X., Maeda, T., Masuda, A., Matsuoka, K., Mizukoshi, K., Morishita, K., Nakajima, K., Nakatani, N., Nomachi, M., Ogawa, I., Ohata, T., Rittirong, A., Saka, M., Suzuki, K., Takahashi, N., Takemoto, Y., Takihira, Y., Tamagawa, Y., Tetsuno, K., Tozawa, M., Trang, V.T.T., Tsuzuki, M., Uehara, T., Umehara, S., Yasuda, K., Yoshida, S., Yoshizawa, M., and Yotsunaga, N.

Published
2024
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2. CANDLES

Author

Umehara S., Kishimoto T., Nomachi M., Ajimura S., Nakatani N., Matsuoka K., Ichimura K., Saka M., Ishikawa T., Tanaka D., Tanaka M., Yoshida S., Suzuki K., Ito G., Kakubata H., Wang W., Takemoto J., Chan W. M., Doihara M., Tamagawa Y., Ogawa I., Ueno T., Maeda S., Yamamoto A., Tomita S., Fujita G., Kawamura A., Harada T., Fushimi K., Hazama R., Ohsumi H., and Okada K.

Subjects
Physics, QC1-999
Abstract

CANDLES is the project to search for neutrino-less double beta decay (0νββ) of 48Ca. The observation of 0νββ will prove existence of a massive Majorana neutrino. For the 0νββ measurement, we need a low background condition because of a low decay rate of 0νββ. Now we installed the CANDLES III system at the Kamioka underground laboratory. The CANDLES III system realizes the low background condition by a characteristic structure and data analyses for background rejection. Here we report performances of the CANDLES III system.

Published
2014
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3. A study on energy resolution of CANDLES detector

Author

Khai, B. T., Ajimura, S., Chan, W. M., Fushimi, K., Hazama, R., Hiraoka, H., Iida, T., Kanagawa, K., Kino, H., Kishimoto, T., Maeda, T., Nakajima, K., Nomachi, M., Ogawa, I., Ohata, T., Suzuki, K., Takemoto, Y., Takihira, Y., Tamagawa, Y., Tozawa, M., Tsuzuki, M., Umehara, S., and Yoshida, S.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment, Nuclear Experiment
Abstract

In a neutrinoless double-beta decay ($0\nu\beta\beta$) experiment, energy resolution is important to distinguish between $0\nu\beta\beta$ and background events. CAlcium fluoride for studies of Neutrino and Dark matters by Low Energy Spectrometer (CANDLES) discerns the $0\nu\beta\beta$ of $^{48}$Ca using a CaF$_2$ scintillator as the detector and source. Photomultiplier tubes (PMTs) collect scintillation photons. At the Q-value of $^{48}$Ca, the current energy resolution (2.6%) exceeds the ideal statistical fluctuation of the number of photoelectrons (1.6%). Because of CaF$_2$'s long decay constant of 1000 ns, a signal integration within 4000 ns is used to calculate the energy. The baseline fluctuation ($\sigma_{baseline}$) is accumulated in the signal integration, thus degrading the energy resolution. This paper studies $\sigma_{baseline}$ in the CANDLES detector, which severely degrades the resolution by 1% at the Q-value of $^{48}$Ca. To avoid $\sigma_{\rm baseline}$, photon counting can be used to obtain the number of photoelectrons in each PMT; however, a significant photoelectron signal overlapping probability in each PMT causes missing photoelectrons in counting and reduces the energy resolution. "Partial photon counting" reduces $\sigma_{baseline}$ and minimizes photoelectron loss. We obtain improved energy resolutions of 4.5-4.0% at 1460.8 keV ($\gamma$-ray of $^{40}$K), and 3.3-2.9% at 2614.5 keV ($\gamma$-ray of $^{208}$Tl). The energy resolution at the Q-value is estimated to be improved from 2.6% to 2.2%, and the detector sensitivity for the $0\nu\beta\beta$ half-life of $^{48}$Ca can be improved by 1.09 times., Comment: This manuscript is prepared for submission to IEEE Transaction on Nuclear Science. It contains 11 pages, 19 figures, and 1 table

Published
2020
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4. Low background measurement in CANDLES-III for studying the neutrino-less double beta decay of $^{48}$Ca

Author

Ajimura, S., Chan, W. M., Ichimura, K., Ishikawa, T., Kanagawa, K., Khai, B. T., Kishimoto, T., Kino, H., Maeda, T., Matsuoka, K., Nakatani, N., Nomachi, M., Saka, M., Seki, K., Takemoto, Y., Takihira, Y., Tanaka, D., Tanaka, M., Tetsuno, K., Trang, V. T. T., Tsuzuki, M., Umehara, S., Akutagawa, K., Batpurev, T., Doihara, M., Katagiri, S., Kinoshita, E., Hirano, Y., Iga, T., Ishikawa, M., Ito, G., Kakubata, H., Lee, K. K., Li, X., Mizukoshi, K., Moser, M., Ohata, T., Shokati, M., Soberi, M. S., Uehara, T., Wang, W., Yamamoto, K., Yasuda, K., Yoshida, S., Yotsunaga, N., Harada, T., Hiraoka, H., Hiyama, T., Hirota, A., Ikeyama, Y., Kawamura, A., Kawashima, Y., Maeda, S., Nakajima, K., Ogawa, I., Ozawa, K., Shamoto, K., Shimizu, K., Shinki, Y., Tamagawa, Y., Tozawa, M., Yoshizawa, M., Fushimi, K., Hazama, R., Noithong, P., Rittirong, A., Suzuki, K., and Iida, T.

Subjects
High Energy Physics - Experiment, Nuclear Experiment, Physics - Instrumentation and Detectors
Abstract

We developed a CANDLES-III system to study the neutrino-less double beta (0$\nu\beta\beta$) decay of $^{48}$Ca. The proposed system employs 96 CaF$_{2}$ scintillation crystals (305 kg) with natural Ca ($^{\rm nat.}$Ca) isotope which corresponds 350\,g of $^{48}$Ca. External backgrounds were rejected using a 4$\pi$ active shield of a liquid scintillator surrounding the CaF$_2$ crystals. The internal backgrounds caused by the radioactive impurities within the CaF$_2$ crystals can be reduced effectively through analysis of the signal pulse shape. We analyzed the data obtained in the Kamioka underground for a live-time of 130.4\,days to evaluate the feasibility of the low background measurement with the CANDLES-III detector. Using Monte Carlo simulations, we estimated the background rate from the radioactive impurities in the CaF$_{2}$ crystals and the rate of high energy $\gamma$-rays caused by the (n, $\gamma$) reactions induced by environmental neutrons. The expected background rate was in a good agreement with the measured rate, i.e., approximately 10$^{-3}$ events/keV/yr/(kg of $^{\rm nat.}$Ca), in the 0$\nu\beta\beta$ window. In conclusion, the background candidates were estimated properly by comparing the measured energy spectrum with the background simulations. With this measurement method, we performed the first search for 0$\nu\beta\beta$ decay in a low background condition using a detector with a Ca isotope, in which the Ca present was not enriched, in a scale of hundreds of kg. The $^{48}$Ca isotope has a high potential for use in 0$\nu\beta\beta$ decay search, and is expected to be useful for the development of a next-generation detector for highly sensitive measurements., Comment: 26 pages, 9 figures, submitted to Physical Review D

Published
2020
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5. The energy calibration system for CANDLES using (n, \gamma) reaction

Author

Iida, T., Mizukoshi, K., Ohata, T., Uehara, T., Batpurev, T., Chan, W. M., Fushimi, K., Hazama, R., Ishikawa, M., Kakubata, H., Kanagawa, K., Katagiri, S., Khai, B. T., Kishimoto, T., Li, X., Maeda, T., Matsuoka, K., Morishita, K., Moser, M., Nakajima, K., Nomachi, M., Ogawa, I., Shokati, M., Suzuki, K., Takemoto, Y., Takihira, Y., Tamagawa, Y., Tetsuno, K., Trang, V. T. T., Umehara, S., and Yoshida, S.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment, Nuclear Experiment
Abstract

CAlcium fluoride for the study of Neutrinos and Dark matters by Low-energy Spectrometer (CANDLES) searches for neutrino-less double beta decay of $^{48}$Ca using a CaF$_2$ scintillator array. A high Q-value of $^{48}$Ca at 4,272 keV enabled us to achieve very low background condition, however, at the same it causes difficulties in calibrating the detector's Q-value region because of the absence of a standard high-energy $\gamma$-ray source. Therefore, we have developed a novel calibration system based on $\gamma$-ray emission by neutron capture on $^{28}$Si, $^{56}$Fe and $^{58}$Ni nuclei. In the paper, we report the development of the new calibration system as well as the results of energy calibration in CANDLES up to 9 MeV., Comment: 6 pages, 7 figures

Published
2020
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6. Background Studies for the MINER Coherent Neutrino Scattering Reactor Experiment

Author

MINER Collaboration, Agnolet, G., Baker, W., Barker, D., Beck, R., Carroll, T. J., Cesar, J., Cushman, P., Dent, J. B., De Rijck, S., Dutta, B., Flanagan, W., Fritts, M., Gao, Y., Harris, H. R., Hays, C. C., Iyer, V., Jastram, A., Kadribasic, F., Kennedy, A., Kubik, A., Ogawa, I., Lang, K., Mahapatra, R., Mandic, V., Martin, R. D., Mast, N., McDeavitt, S., Mirabolfathi, N., Mohanty, B., Nakajima, K., Newhouse, J., Newstead, J. L., Phan, D., Proga, M., Roberts, A., Rogachev, G., Salazar, R., Sander, J., Senapati, K., Shimada, M., Strigari, L., Tamagawa, Y., Teizer, W., Vermaak, J. I. C., Villano, A. N., Walker, J., Webb, B., Wetzel, Z., and Yadavalli, S. A.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Abstract

The proposed Mitchell Institute Neutrino Experiment at Reactor (MINER) experiment at the Nuclear Science Center at Texas A&M University will search for coherent elastic neutrino-nucleus scattering within close proximity (about 2 meters) of a 1 MW TRIGA nuclear reactor core using low threshold, cryogenic germanium and silicon detectors. Given the Standard Model cross section of the scattering process and the proposed experimental proximity to the reactor, as many as 5 to 20 events/kg/day are expected. We discuss the status of preliminary measurements to characterize the main backgrounds for the proposed experiment. Both in situ measurements at the experimental site and simulations using the MCNP and GEANT4 codes are described. A strategy for monitoring backgrounds during data taking is briefly discussed., Comment: 12 pages, 14 figures

Published
2016

7. Search for the rare decay $K^+\to\mu^+\nu\bar\nu\nu$

Author

Artamonov, A. V., Bassalleck, B., Bhuyan, B., Blackmore, E. W., Bryman, D. A., Chen, S., Chiang, I-H., Christidi, I. -A., Cooper, P. S., Diwan, M. V., Frank, J. S., Fujiwara, T., Hu, J., Ives, J., Izmaylov, A. O., Jaffe, D. E., Kabe, S., Kettell, S. H., Khabibullin, M. M., Khotjantsev, A. N., Kitching, P., Kobayashi, M., Komatsubara, T. K., Konaka, A., Kudenko, Yu. G., Landsberg, L. G., Lewis, B., Li, K. K., Littenberg, L. S., Macdonald, J. A., Mildenberger, J., Mineev, O. V., Miyajima, M., Mizouchi, K., Muramatsu, N., Nakano, T., Nomachi, M., Nomura, T., Numao, T., Obraztsov, V. F., Omata, K., Patalakha, D. I., Poutissou, R., Redlinger, G., Sato, T., Sekiguchi, T., Shaikhiev, A. T., Shinkawa, T., Strand, R. C., Sugimoto, S., Tamagawa, Y., Tschirhart, R., Tsunemi, T., Vavilov, D. V., Viren, B., Wang, Zhe, Wei, Hanyu, Yershov, N. V., Yoshimura, Y., and Yoshioka, T.

Subjects
High Energy Physics - Experiment
Abstract

Evidence of the $K^+\to\mu^+\nu\bar\nu\nu$ decay was searched for using E949 experimental data with an exposure of $1.70\times 10^{12}$ stopped kaons. The data sample is dominated by the backgrond process $K^+\to\mu^+\nu_\mu\gamma$. An upper limit on the decay rate $\Gamma(K^+\to\mu^+\nu\bar\nu\nu)< 2.4\times 10^{-6}\Gamma(K^+\to all)$ at 90% confidence level was set assuming the Standard Model muon spectrum. The data are presented in such a way as to allow calculation of rates for any assumed $\mu^+$ spectrum., Comment: 7 pages, 5 figures

Published
2016
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8. The energy calibration system for CANDLES using (n,[formula omitted]) reaction

Author

Iida, T., Mizukoshi, K., Ohata, T., Uehara, T., Batpurev, T., Fushimi, K., Hazama, R., Ishikawa, M., Kakubata, H., Kanagawa, K., Katagiri, S., Khai, B.T., Kishimoto, T., Li, X., Maeda, T., Matsuoka, K., Morishita, K., Moser, M., Nakajima, K., Nomachi, M., Ogawa, I., Shokati, M., Suzuki, K., Takemoto, Y., Takihira, Y., Tamagawa, Y., Tetsuno, K., Tozawa, M., Trang, V.T.T., Umehara, S., and Yoshida, S.

Published
2021
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9. Search for heavy neutrinos in $K^+\to\mu^+\nu_H$ decays

Author

Artamonov, A. V., Bassalleck, B., Bhuyan, B., Blackmore, E. W., Bryman, D. A., Chen, S., Chiang, I-H., Christidi, I. -A., Cooper, P. S., Diwan, M. V., Frank, J. S., Fujiwara, T., Hu, J., Ives, J., Izmaylov, A. O., Jaffe, D. E., Kabe, S., Kettell, S. H., Khabibullin, M. M., Khotjantsev, A. N., Kitching, P., Kobayashi, M., Komatsubara, T. K., Konaka, A., Kudenko, Yu. G., Landsberg, L. G., Lewis, B., Li, K. K., Littenberg, L. S., Macdonald, J. A., Mildenberger, J., Mineev, O. V., Miyajima, M., Mizouchi, K., Muramatsu, N., Nakano, T., Nomachi, M., Nomura, T., Numao, T., Obraztsov, V. F., Omata, K., Patalakha, D. I., Poutissou, R., Redlinger, G., Sato, T., Sekiguchi, T., Shaikhiev, A. T., Shinkawa, T., Strand, R. C., Sugimoto, S., Tamagawa, Y., Tschirhart, R., Tsunemi, T., Vavilov, D. V., Viren, B., Wang, Zhe, Wei, Hanyu, Yershov, N. V., Yoshimura, Y., and Yoshioka, T.

Subjects
High Energy Physics - Experiment
Abstract

Evidence of a heavy neutrino, $\nu_H$, in the $K^+\to\mu^+\nu_H$ decays was sought using the E949 experimental data with an exposure of $1.70\times 10^{12}$ stopped kaons. With the major background from the radiative $K^+\to\mu^+\nu_\mu\gamma$ decay understood and suppressed, upper limits (90% C.L.) on the neutrino mixing matrix element between muon and heavy neutrino, $|U_{\mu H}|^2$, were set at the level of $10^{-7}$ to $10^{-9}$ for the heavy neutrino mass region 175 to 300 MeV/$c^2$., Comment: 14 pages, 13 figures; accepted by Physical Review D

Published
2014
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12. Probing New Physics Models of Neutrinoless Double Beta Decay with SuperNEMO

Author

Arnold, R., Augier, C., Baker, J., Barabash, A. S., Basharina-Freshville, A., Bongrand, M., Brudanin, V., Caffrey, A. J., Cebrián, S., Chapon, A., Chauveau, E., Dafni, Th., Deppisch, F. F., Diaz, J., Durand, D., Egorov, V., Evans, J. J., Flack, R., Fushima, K-I., Irastorza, I. García, Garrido, X., Gómez, H., Guillon, B., Holin, A., Holy, K., Horkley, J. J., Hubert, Ph., Hugon, C., Iguaz, F. J., Ishihara, N., Jackson, C. M., Jullian, S., Kauer, M., Kochetov, O., Konovalov, S. I., Kovalenko, V., Lamhamdi, T., Lang, K., Lutter, G., Luzón, G., Mamedov, F., Marquet, Ch., Mauger, F., Monrabal, F., Nachab, A., Nasteva, I., Nemchenok, I., Nguyen, C. H., Nomachi, M., Nova, F., Ohsumi, H., Pahlka, R. B., Perrot, F., Piquemal, F., Povinec, P. P., Richards, B., Ricol, J. S., Riddle, C. L., Rodríguez, A., Saakyan, R., Sarazin, X., Sedgbeer, J. K., Serra, L., Shitov, Yu., Simard, L., Šimkovic, F., Söldner-Rembold, S., Štekl, I., Sutton, C. S., Tamagawa, Y., Thomas, J., Timkin, V., Tretyak, V., Tretyak, Vl. I., Umatov, V. I., Vanyushin, I. A., Vasiliev, R., Vasiliev, V., Vorobel, V., Waters, D., Yahlali, N., and Žukauskas, A.

Subjects
High Energy Physics - Experiment, High Energy Physics - Phenomenology
Abstract

The possibility to probe new physics scenarios of light Majorana neutrino exchange and right-handed currents at the planned next generation neutrinoless double beta decay experiment SuperNEMO is discussed. Its ability to study different isotopes and track the outgoing electrons provides the means to discriminate different underlying mechanisms for the neutrinoless double beta decay by measuring the decay half-life and the electron angular and energy distributions., Comment: 17 pages, 14 figures, to be published in E.P.J. C

Published
2010
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13. Results of the BiPo-1 prototype for radiopurity measurements for the SuperNEMO double beta decay source foils

Author

Argyriades, J., Arnold, R., Augier, C., Baker, J., Barabash, A. S., Basharina-Freshville, A., Bongrand, M., Bourgeois, C., Breton, D., Briére, M., Broudin-Bay, G., Brudanin, V. B., Caffrey, A. J., Cebrián, S., Chapon, A., Chauveau, E., Dafni, Th., Díaz, J., Durand, D., Egorov, V. G., Evans, J. J., Flack, R., Fushima, K-I., Irastorza, I. G., Garrido, X., Gómez, H., Guillon, B., Holin, A., Holy, K, Horkey, J. J., Hubert, P., Hugon, C., Iguaz, F. J., Ishihara, N., Jackson, C. M., Jenzer, S., Jullian, S., Kauer, M., Kochetov, O. I., Konovalov, S. I., Kovalenko, V., Lamhamdi, T., Lang, K., Lemiére, Y., Lutter, G., Luzón, G., Mamedov, F., Marquet, Ch., Mauger, F., Monrabal, F., Nachab, A., Nemchenok, I. B., Nguyen, C. H., Nomachi, M., Nova, F., Ohsumi, H., Pahlka, R. B., Perrot, F., Piquemal, F., Povinec, P. P., Richards, B., Ricol, J. S., Riddle, C. L., Rodríguez, A., Saakyan, R., Sarazin, X., Sedgbeer, J. K., Serra, L., Shitov, Yu. A., Simard, L., Šimkovic, F., Söldner-Rembold, S., Štekl, I., Sutton, C. S., Tamagawa, Y., Szklarz, G., Thomas, J., Timkin, V., Tretyak, V., Tretyak, Vl. I., Umatov, V. I., Vála, L., Vanyushin, I. A., Vasiliev, R., Vasiliev, V. A., Vorobel, V., Waters, D., Yahali, N., and Žukauskas, A.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Abstract

The development of BiPo detectors is dedicated to the measurement of extremely high radiopurity in $^{208}$Tl and $^{214}$Bi for the SuperNEMO double beta decay source foils. A modular prototype, called BiPo-1, with 0.8 $m^2$ of sensitive surface area, has been running in the Modane Underground Laboratory since February, 2008. The goal of BiPo-1 is to measure the different components of the background and in particular the surface radiopurity of the plastic scintillators that make up the detector. The first phase of data collection has been dedicated to the measurement of the radiopurity in $^{208}$Tl. After more than one year of background measurement, a surface activity of the scintillators of $\mathcal{A}$($^{208}$Tl) $=$ 1.5 $\mu$Bq/m$^2$ is reported here. Given this level of background, a larger BiPo detector having 12 m$^2$ of active surface area, is able to qualify the radiopurity of the SuperNEMO selenium double beta decay foils with the required sensitivity of $\mathcal{A}$($^{208}$Tl) $<$ 2 $\mu$Bq/kg (90% C.L.) with a six month measurement., Comment: 24 pages, submitted to N.I.M. A

Published
2010
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14. Spectral modeling of scintillator for the NEMO-3 and SuperNEMO detectors

Author

Argyriades, J., Arnold, R., Augier, C., Baker, J., Barabash, A. S., Bongrand, M., Broudin-Bay, G., Brudanin, V. B., Caffrey, A. J., Cebrián, S., Chapon, A., Chauveau, E., Dafni, Th., Daraktchieva, Z., iaz, J. D, Durand, D., Egorov, V. G., Evans, J. J., Fatemi-Ghomi, N., Flack, R., Basharina-Freshville, A., Fushimi, K-I., Garrido, X., Gómez, H., Guillon, B., Holin, A., Holy, K., Horkey, J. J., Hubert, Ph., Hugon, C., Iguaz, F. J., Irastorza, I. G., Ishihara, N., Jackson, C. M., Jullian, S., Kanamaru, S., Kauer, M., Kochetov, O. I., Konovalov, S. I., Kovalenko, V. E., Lalanne, D., Lang, K., ere, Y. Lemi, Lutter, G., Luzón, G., Mamedov, F., Marquet, Ch., Martin-Albo, J., Mauger, F., Monrabal, F., Nachab, A., Nasteva, I., Nemchenok, I. B., Nguyen, C. H., Nova, F., Novella, P., Ohsumi, H., Pahlka, R. B., Perrot, F., Piquemal, F., Povinec, P. P., Richards, B., Ricol, J. S., Riddle, C. L., Rodriguez, A., Saakyan, R., Sarazin, X., Sedgbeer, J. K., Serra, L., Simard, L., Šimkovic, F., Shitov, Yu. A., Smolnikov, A. A., Soldner-Rembold, S., Štekl, I., Sugaya, Y., Sutton, C. S., Szklarz, G., Tamagawa, Y., Thomas, J., Thompson, R., Timkin, V. V., Tretyak, V. I., Tretyak, Vl. I., Umatov, V. I., ala, L. V, Vanyushin, I. A., Vasiliev, R., Vorobel, V., Vylov, Ts., Waters, D., Yahlali, N., and Žukauskas, A.

Subjects
Physics - Instrumentation and Detectors, High Energy Physics - Experiment
Abstract

We have constructed a GEANT4-based detailed software model of photon transport in plastic scintillator blocks and have used it to study the NEMO-3 and SuperNEMO calorimeters employed in experiments designed to search for neutrinoless double beta decay. We compare our simulations to measurements using conversion electrons from a calibration source of $\rm ^{207}Bi$ and show that the agreement is improved if wavelength-dependent properties of the calorimeter are taken into account. In this article, we briefly describe our modeling approach and results of our studies., Comment: 16 pages, 10 figures

Published
2010
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15. Study of the decay K+ => pi+,nu,nubar in the momentum region 140<Ppi<199 MeV/c

Author

E949 Collaboration, Artamonov, A. V., Bassalleck, B., Bhuyan, B., Blackmore, E. W., Bryman, D. A., Chen, S., Chiang, I-H., Christidi, I. -A., Cooper, P. S., Diwan, M. V., Frank, J. S., Fujiwara, T., Hu, J., Ives, J., Jaffe, D. E., Kabe, S., Kettell, S. H., Khabibullin, M. M., Khotjantsev, A. N., Kitching, P., Kobayashi, M., Komatsubara, T. K., Konaka, A., Kozhevnikov, A. P., Kudenko, Yu. G., Kushnirenko, A., Landsberg, L. G., Lewis, B., Li, K. K., Littenberg, L. S., Macdonald, J. A., Mildenberger, J., Mineev, O. V., Miyajima, M., Mizouchi, K., Mukhin, V. A., Muramatsu, N., Nakano, T., Nomachi, M., Nomura, T., Numao, T., Obraztsov, V. F., Omata, K., Patalakha, D. I., Petrenko, S. V., Poutissou, R., Ramberg, E. J., Redlinger, G., Sato, T., Sekiguchi, T., Shinkawa, T., Strand, R. C., Sugimoto, S., Tamagawa, Y., Tschirhart, R., Tsunemi, T., Vavilov, D. V., Viren, B., Wang, Zhe, Yershov, N. V., Yoshimura, Y., and Yoshioka, T.

Subjects
High Energy Physics - Experiment
Abstract

Experiment E949 at Brookhaven National Laboratory has observed three new events consistent with the decay K+ => pi+,nu,nubar in the pion momentum region 140 < P_pi < 199 MeV/c in an exposure of 1.71e12 stopped kaons with an estimated total background of 0.93+-0.17(stat.)+0.32-0.24(syst.) events. This brings the total number of observed K+ => pi+,nu,nubar events to seven. Combining this observation with previous results, assuming the pion spectrum predicted by the standard model, results in a branching ratio of (1.73+1.15-1.05)e-10. An interpretation of the results for alternative models of the decay K^ => pi+,nothing is also presented., Comment: Submitted to Phys.Rev. D

Published
2009
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16. Background studies of high energy γ rays from (n,γ) reactions in the CANDLES experiment

Author

Nakajima, K., Iida, T., Akutagawa, K., Batpurev, T., Chan, W.M., Dokaku, F., Fushimi, K., Kakubata, H., Kanagawa, K., Katagiri, S., Kawasaki, K., Khai, B.T., Kino, H., Kinoshita, E., Kishimoto, T., Hazama, R., Hiraoka, H., Hiyama, T., Ishikawa, M., Li, X., Maeda, T., Matsuoka, K., Moser, M., Nomachi, M., Ogawa, I., Ohata, T., Sato, H., Shamoto, K., Shimada, M., Shokati, M., Takahashi, N., Takemoto, Y., Takihira, Y., Tamagawa, Y., Tozawa, M., Teranishi, K., Tetsuno, K., Trang, V.T.T., Tsuzuki, M., Umehara, S., Wang, W., Yoshida, S., and Yotsunaga, N.

Published
2018
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17. Background studies for the MINER Coherent Neutrino Scattering reactor experiment

Author

Agnolet, G., Baker, W., Barker, D., Beck, R., Carroll, T.J., Cesar, J., Cushman, P., Dent, J.B., De Rijck, S., Dutta, B., Flanagan, W., Fritts, M., Gao, Y., Harris, H.R., Hays, C.C., Iyer, V., Jastram, A., Kadribasic, F., Kennedy, A., Kubik, A., Lang, K., Mahapatra, R., Mandic, V., Marianno, C., Martin, R.D., Mast, N., McDeavitt, S., Mirabolfathi, N., Mohanty, B., Nakajima, K., Newhouse, J., Newstead, J.L., Ogawa, I., Phan, D., Proga, M., Rajput, A., Roberts, A., Rogachev, G., Salazar, R., Sander, J., Senapati, K., Shimada, M., Soubasis, B., Strigari, L., Tamagawa, Y., Teizer, W., Vermaak, J.I.C., Villano, A.N., Walker, J., Webb, B., Wetzel, Z., and Yadavalli, S.A.

Published
2017
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18. The CANDLES experiment for the study of Ca-48 double beta decay

Author

Iida, T., Kishimoto, T., Nomachi, M., Ajimura, S., Umehara, S., Nakajima, K., Ichimura, K., Yoshida, S., Suzuki, K., Kakubata, H., Wang, W., Chan, W.M., Trang, V.T.T., Doihara, M., Ishikawa, T., Tanaka, D., Tanaka, M., Maeda, T., Ohata, T., Tetsuno, K., Tamagawa, Y., Ogawa, I., Tomita, S., Fujita, G., Kawamura, A., Harada, T., Inukai, Y., Sakamoto, K., Yoshizawa, M., Fushimi, K., Hazama, R., Nakatani, N., Osumi, H., and Okada, K.

Published
2016
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19. Search for Neutrino-less Double Beta Decay with CANDLES

Author

Umehara, S., Kishimoto, T., Nomachi, M., Ajimura, S., Iida, T., Nakajima, K., Ichimura, K., Matsuoka, K., Saka, M., Ishikawa, T., Tanaka, D., Tanaka, M., Maeda, T., Yoshida, S., Suzuki, K., Ito, G., Kakubata, H., Wang, W., Trang, V.T.T., Chan, W.M., Takemoto, J., Doihara, M., Ohata, T., Tetsuno, K., Tamagawa, Y., Ogawa, I., Ueno, T., Maeda, S., Yamamoto, A., Tomita, S., Fujita, G., Kawamura, A., Harada, T., Inukai, Y., Sakamoto, K., Yoshizawa, M., Fushimi, K., Hazama, R., Nakatani, N., Ohsumi, H., and Okada, K.

Published
2015
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20. Spectral modeling of scintillator for the NEMO-3 and SuperNEMO detectors

Author

Argyriades, J., Arnold, R., Augier, C., Baker, J., Barabash, A.S., Bongrand, M., Broudin-Bay, G., Brudanin, V.B., Caffrey, A.J., Cebrián, S., Chapon, A., Chauveau, E., Dafni, Th., Daraktchieva, Z., Díaz, J., Durand, D., Egorov, V.G., Evans, J.J., Fatemi-Ghomi, N., Flack, R., Basharina-Freshville, A., Fushimi, K.-I., Garrido, X., Gómez, H., Guillon, B., Holin, A., Holý, K., Horkley, J.J., Hubert, Ph., Hugon, C., Iguaz, F.J., Irastorza, I.G., Ishihara, N., Jackson, C.M., Jullian, S., Kanamaru, S., Kauer, M., Kochetov, O.I., Konovalov, S.I., Kovalenko, V.E., Lalanne, D., Lang, K., Lemière, Y., Lutter, G., Luzón, G., Mamedov, F., Marquet, Ch., Martin-Albo, J., Mauger, F., Monrabal, F., Nachab, A., Nasteva, I., Nemchenok, I.B., Nguyen, C.H., Nova, F., Novella, P., Ohsumi, H., Pahlka, R.B., Perrot, F., Piquemal, F., Povinec, P.P., Richards, B., Ricol, J.S., Riddle, C.L., Rodriguez, A., Saakyan, R., Sarazin, X., Sedgbeer, J.K., Serra, L., Simard, L., Šimkovic, F., Shitov, Yu.A., Smolnikov, A.A., Söldner-Rembold, S., Štekl, I., Sugaya, Y., Sutton, C.S., Szklarz, G., Tamagawa, Y., Thomas, J., Thompson, R., Timkin, V.V., Tretyak, V.I., Tretyak, Vl.I., Umatov, V.I., Vála, L., Vanyushin, I.A., Vasiliev, R., Vorobel, V., Vylov, Ts., Waters, D., Yahlali, N., and Žukauskas, A.

Published
2011
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22. Low background measurement in CANDLES-III for studying the neutrinoless double beta decay of <math><mrow><mmultiscripts><mrow><mi>Ca</mi></mrow><mprescripts></mprescripts><none></none><mrow><mn>48</mn></mrow></mmultiscripts></mrow></math>

Author

Ajimura, S., Chan, W. M., Ichimura, K., Ishikawa, T., Kanagawa, K., Khai, B. T., Kishimoto, T., Kino, H., Maeda, T., Matsuoka, K., Nakatani, N., Nomachi, M., Saka, M., Seki, K., Takemoto, Y., Takihira, Y., Tanaka, D., Tanaka, M., Tetsuno, K., Trang, V. T. T., Tsuzuki, M., Umehara, S., Akutagawa, K., Batpurev, T., Doihara, M., Katagiri, S., Kinoshita, E., Hirano, Y., Iga, T., Ishikawa, M., Ito, G., Kakubata, H., Lee, K. K., Li, X., Mizukoshi, K., Moser, M., Ohata, T., Shokati, M., Soberi, M. S., Uehara, T., Wang, W., Yamamoto, K., Yasuda, K., Yoshida, S., Yotsunaga, N., Harada, T., Hiraoka, H., Hiyama, T., Hirota, A., Ikeyama, Y., Kawamura, A., Kawashima, Y., Maeda, S., Nakajima, K., Ogawa, I., Ozawa, K., Shamoto, K., Shimizu, K., Shinki, Y., Tamagawa, Y., Tozawa, M., Yoshizawa, M., Fushimi, K., Hazama, R., Noithong, P., Rittirong, A., Suzuki, K., and Iida, T.

Abstract

We developed a CANDLES-III system to study the neutrinoless double beta (0νββ) decay of Ca48. The proposed system employs 96 CaF2 scintillation crystals (305 kg) with natural Ca (Canat) isotope which corresponds 350 g of Ca48. External backgrounds were rejected using a 4π active shield of a liquid scintillator surrounding the CaF2 crystals. The internal backgrounds caused by the radioactive impurities within the CaF2 crystals can be reduced effectively through analysis of the signal pulse shape. We analyzed the data obtained in the Kamioka underground for a live-time of 130.4 days to evaluate the feasibility of the low background measurement with the CANDLES-III detector. Using Monte Carlo simulations, we estimated the background rate from the radioactive impurities in the CaF2 crystals and the rate of high energy γ-rays caused by the (n,γ) reactions induced by environmental neutrons. The expected background rate was in a good agreement with the measured rate, i.e., approximately 10−3 events/keV/yr/(kg of Canat), in the 0νββ window. In conclusion, the background candidates were estimated properly by comparing the measured energy spectrum with the background simulations. With this measurement method, we performed the first search for 0νββ decay in a low background condition using a detector on the scale of hundreds of kg of nonenriched Ca. Deploying scintillators enriched in Ca48 will increase the sensitivity strongly. Ca48 has a high potential for use in 0νββ decay search, and is expected to be useful for the development of a next-generation detector for highly sensitive measurements.

Published
2021

24. The energy calibration system for CANDLES using (n, ��) reaction

Author

Iida, T., Mizukoshi, K., Ohata, T., Uehara, T., Batpurev, T., Chan, W. M., Fushimi, K., Hazama, R., Ishikawa, M., Kakubata, H., Kanagawa, K., Katagiri, S., Khai, B. T., Kishimoto, T., Li, X., Maeda, T., Matsuoka, K., Morishita, K., Moser, M., Nakajima, K., Nomachi, M., Ogawa, I., Shokati, M., Suzuki, K., Takemoto, Y., Takihira, Y., Tamagawa, Y., Tetsuno, K., Trang, V. T. T., Umehara, S., and Yoshida, S.

Subjects
High Energy Physics - Experiment (hep-ex), Astrophysics::High Energy Astrophysical Phenomena, Astrophysics::Instrumentation and Methods for Astrophysics, FOS: Physical sciences, Instrumentation and Detectors (physics.ins-det), Nuclear Experiment (nucl-ex)
Abstract

CAlcium fluoride for the study of Neutrinos and Dark matters by Low-energy Spectrometer (CANDLES) searches for neutrino-less double beta decay of $^{48}$Ca using a CaF$_2$ scintillator array. A high Q-value of $^{48}$Ca at 4,272 keV enabled us to achieve very low background condition, however, at the same it causes difficulties in calibrating the detector's Q-value region because of the absence of a standard high-energy $��$-ray source. Therefore, we have developed a novel calibration system based on $��$-ray emission by neutron capture on $^{28}$Si, $^{56}$Fe and $^{58}$Ni nuclei. In the paper, we report the development of the new calibration system as well as the results of energy calibration in CANDLES up to 9 MeV., 6 pages, 7 figures

Published
2020
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26. A Study on Energy Resolution of CANDLES Detector

Author

Khai, B. T., primary, Ajimura, S., additional, Chan, W. M., additional, Fushimi, K., additional, Hazama, R., additional, Hiraoka, H., additional, Iida, T., additional, Kanagawa, K., additional, Kino, H., additional, Kishimoto, T., additional, Maeda, T., additional, Nakajima, K., additional, Nomachi, M., additional, Ogawa, I., additional, Ohata, T., additional, Suzuki, K., additional, Takemoto, Y., additional, Takihira, Y., additional, Tamagawa, Y., additional, Tozawa, M., additional, Tsuzuki, M., additional, Umehara, S., additional, and Yoshida, S., additional

Published
2021
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27. The energy calibration system for CANDLES using (n,γ) reaction

Author

Iida, T., primary, Mizukoshi, K., additional, Ohata, T., additional, Uehara, T., additional, Batpurev, T., additional, Fushimi, K., additional, Hazama, R., additional, Ishikawa, M., additional, Kakubata, H., additional, Kanagawa, K., additional, Katagiri, S., additional, Khai, B.T., additional, Kishimoto, T., additional, Li, X., additional, Maeda, T., additional, Matsuoka, K., additional, Morishita, K., additional, Moser, M., additional, Nakajima, K., additional, Nomachi, M., additional, Ogawa, I., additional, Shokati, M., additional, Suzuki, K., additional, Takemoto, Y., additional, Takihira, Y., additional, Tamagawa, Y., additional, Tetsuno, K., additional, Tozawa, M., additional, Trang, V.T.T., additional, Umehara, S., additional, and Yoshida, S., additional

Published
2021
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28. Performance of connected GSO bars

Author

Tamagawa, Y., Shirasaka, H., Kobayashi, M., Komatsubara, T.K., Mimori, K., Omata, K., Sekiguchi, T., Sugimoto, S., Tsunemi, T., Yoshioka, T., Yoshimura, Y., and Fujiwara, T.

Published
2006
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30. Search for neutrino-less double beta decay of 48Ca-CANDLES-

Author

Umehara, S., primary, Nomachi, M., additional, Kishimoto, T., additional, Ajimura, S., additional, Takemoto, Y., additional, Tetsuno, K., additional, Takihira, K., additional, Matsuoka, K., additional, Trang, V. T. T., additional, Yoshida, S., additional, Shokati, M., additional, Li, X., additional, Batpurev, T., additional, Khai, B. T., additional, Lee, K., additional, Akutagawa, K., additional, Soberi, F., additional, Mizukoshi, K., additional, Yamamoto, K., additional, Tamagawa, Y., additional, Ogawa, I., additional, Nakajima, K., additional, Tozawa, M., additional, Shimizu, K., additional, Mori, Y., additional, Ikeyama, Y., additional, Ozawa, K., additional, Iida, T., additional, Fushimi, K., additional, Hazama, R., additional, Noithong, P., additional, Suzuki, K., additional, and Ohsumi, H., additional

Published
2020
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32. Status of 48Ca double beta decay search and its future prospect in CANDLES

Author

Tetsuno, K., primary, Ajimura, S., additional, Akutagawa, K., additional, Batpurev, T., additional, Chan, W. M., additional, Fushimi, K., additional, Hazama, R., additional, Iida, T., additional, Ikeyama, Y., additional, Khai, B. T., additional, Kishimoto, T., additional, Lee, K. K., additional, Li, X., additional, Matsuoka, K., additional, Mizukoshi, K., additional, Mori, Y., additional, Nakajima, K., additional, Noithong, P., additional, Nomachi, M., additional, Ogawa, I., additional, Ohsumi, H., additional, Ozawa, K., additional, Shimizu, K., additional, Shokati, M., additional, Soberi, F., additional, Suzuki, K., additional, Takemoto, Y., additional, Takihira, Y., additional, Tamagawa, Y., additional, Tozawa, M., additional, Trang, V. T. T., additional, Umehara, S., additional, Yamamoto, K., additional, Yoshida, S., additional, Kim, I, additional, Kwon, D H, additional, Kim, H L, additional, Lee, H J, additional, Lee, M K, additional, and Kim, Y H, additional

Published
2020
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33. Neutrino-less double beta decay of 48Ca studied by CaF2(pure) scintillators

Author

Umehara, S., primary, Kishimoto, T., additional, Nomachi, M., additional, Ajimura, S., additional, Takemoto, Y., additional, Chan, W. M., additional, Takihira, K., additional, Matsuoka, K., additional, Nakatani, N., additional, Trang, V. T. T., additional, Yoshida, S., additional, Wang, W., additional, Maeda, T., additional, Ohata, T., additional, Tetsuno, K., additional, Lee, K., additional, Lee, X., additional, Shokati, M., additional, Temuge, B., additional, Akutagawa, K., additional, Kanagawa, K., additional, Katagiri, S., additional, Khai, B. T., additional, Tsuzuki, M., additional, Yotsunaga, N., additional, Moser, M., additional, Ishikawa, M., additional, Kino, H., additional, Kinoshita, E., additional, Sato, Y., additional, Tamagawa, Y., additional, Ogawa, I., additional, Nakajima, K., additional, Tozawa, M., additional, Dokaku, F., additional, Hiyama, T., additional, Takahashi, N., additional, Teranishi, K., additional, Hiraoka, H., additional, Kawasaki, K., additional, Sato, H., additional, Shamoto, K., additional, Shimada, M., additional, Iida, T., additional, Fushimi, K., additional, Hazama, R., additional, Suzuki, K., additional, and Ohsumi, H., additional

Published
2020
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37. Photon counting method for improvement of energy resolution in CANDLES experiment

Author

Khai, B. T., primary, Ajimura, S., additional, Chan, W. M., additional, Fushimi, K., additional, Hazama, R., additional, Iida, T., additional, Kanagawa, K., additional, Katagiri, S., additional, Kino, H., additional, Kishimoto, T., additional, Maeda, T., additional, Nakajima, K., additional, Nomachi, M., additional, Ogawa, I., additional, Ohata, T., additional, Suzuki, K., additional, Takemoto, Y., additional, Tamagawa, Y., additional, Tozawa, M., additional, Tsuzuki, M., additional, Umehara, S., additional, and Yoshida, S., additional

Published
2019
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40. A beam test of PbWO 4 Cherenkov radiators

Author

Kobayashi, M., Sugimoto, S., Yoshimura, Y., Komatsubara, T.K., Mimori, K., Omata, K., Sekiguchi, T., Tsunemi, T., Yoshioka, T., Tamagawa, Y., Shirasaka, H., Fujiwara, T., Usuki, Y., and Ishii, M.

Published
2002
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41. Development of CANDLES Low Background HPGe Detector and Half-life Measurement of 180Tam

Author

Chan, W.M., Kishimoto, T., Umehara, S., Matsuoka, K., Suzuki, K., Yoshida, S., Nakajima, K., Iida, T., Fushimi, Ken-Ichi, Nomachi, M., Ogawa, I., Tamagawa, Y., Hazama, Ryuta, Takemoto, Y., Nakatani, N., Takihira, Y., Tozawa, M., Kakubata, H., Trang, V.T.T., Ohata, T., Tetsuno, K., Maeda, T., Khai, B.T., Li, X.L., Batpurev, T., Chan, W.M., Kishimoto, T., Umehara, S., Matsuoka, K., Suzuki, K., Yoshida, S., Nakajima, K., Iida, T., Fushimi, Ken-Ichi, Nomachi, M., Ogawa, I., Tamagawa, Y., Hazama, Ryuta, Takemoto, Y., Nakatani, N., Takihira, Y., Tozawa, M., Kakubata, H., Trang, V.T.T., Ohata, T., Tetsuno, K., Maeda, T., Khai, B.T., Li, X.L., and Batpurev, T.

Abstract

A low background HPGe detector system was developed at CANDLES Experimental Hall for multipurpose use. Various low background techniques were employed, including hermatic shield design, radon gas suppression, and background reduction analysis. A new pulse shape discrimination (PSD) method was specially created for coaxial Ge detector. Using this PSD method, microphonics noise and background event at low energy region less than 200 keV can be rejected effectively. Monte Carlo simulation by GEANT4 was performed to acquire the detection efficiency and study the interaction of gamma-rays with detector system. For rare decay measurement, the detector was utilized to detect the nature’s most stable isomer tantalum-180m (180Tam) decay. Two phases of tantalum physics run were completed with total livetime of 358.2 days, which Phase II has upgraded shield configuration. The world most stringent half-life limit of 180Tam has been successfully achieved.

Published
2018

42. Performance of updated shielding system in CANDLES

Author

Nakajima, K., primary, Batpurev, T., additional, Chan, W. M., additional, Dokaku, F., additional, Fushimi, K., additional, Hazama, R., additional, Hiraoka, H., additional, Hiyama, T., additional, Iida, T., additional, Ishikawa, M., additional, Kanagawa, K., additional, Katagiri, S., additional, Kawasaki, K., additional, Khai, B. T., additional, Kino, H., additional, Kinoshita, E., additional, Kishimoto, T., additional, Li, X., additional, Maeda, T., additional, Matsuoka, K., additional, Moser, M., additional, Nomachi, M., additional, Ogawa, I., additional, Ohata, T., additional, Sato, H., additional, Sato, Y., additional, Shamoto, K., additional, Shimada, M., additional, Shokati, M., additional, Takahashi, N., additional, Takemoto, Y., additional, Takihira, Y., additional, Tamagawa, Y., additional, Teranishi, K., additional, Tetsuno, K., additional, Tozawa, M., additional, Trang, V. T. T., additional, Tsuzuki, M., additional, Umehara, S., additional, Wang, W., additional, Yoshida, S., additional, and Yotsunaga, N., additional

Published
2018
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43. Background Studies for the MINER Coherent Neutrino Scattering Reactor Experiment

Author

Miner, Collaboration, Agnolet, G., Baker, W., Barker, D., Beck, R., Carroll, T. J., Cesar, J., Cushman, P., Dent, J. B., Rijck, S., Dutta, B., Flanagan, W., Fritts, M., Gao, Y., Harris, H. R., Hays, C. C., Iyer, V., Jastram, A., Kadribasic, F., Kennedy, A., Kubik, A., Ogawa, I., Lang, K., Mahapatra, R., Mandic, V., Martin, R. D., Mast, N., Mcdeavitt, S., Mirabolfathi, N., Mohanty, B., Nakajima, K., Newhouse, J., Newstead, J. L., Phan, D., Proga, M., Roberts, A., Rogachev, G., Salazar, R., Sander, J., Senapati, K., Shimada, M., Louis Strigari, Tamagawa, Y., Teizer, W., Vermaak, J. I. C., Villano, A. N., Walker, J., Webb, B., Wetzel, Z., and Yadavalli, S. A.

Subjects
High Energy Physics - Experiment (hep-ex), Physics - Instrumentation and Detectors, FOS: Physical sciences, Instrumentation and Detectors (physics.ins-det), High Energy Physics - Experiment
Abstract

The proposed Mitchell Institute Neutrino Experiment at Reactor (MINER) experiment at the Nuclear Science Center at Texas A&M University will search for coherent elastic neutrino-nucleus scattering within close proximity (about 2 meters) of a 1 MW TRIGA nuclear reactor core using low threshold, cryogenic germanium and silicon detectors. Given the Standard Model cross section of the scattering process and the proposed experimental proximity to the reactor, as many as 5 to 20 events/kg/day are expected. We discuss the status of preliminary measurements to characterize the main backgrounds for the proposed experiment. Both in situ measurements at the experimental site and simulations using the MCNP and GEANT4 codes are described. A strategy for monitoring backgrounds during data taking is briefly discussed., 12 pages, 14 figures

Published
2016

46. Search For Neutrino-less Double Beta Decay Of 48Ca- Candles -

Author

Umehara, Saori, primary, Kishimoto, T., additional, Nomachi, M., additional, Ajimura, S., additional, Iida, T., additional, Takemoto, Y., additional, Matsuoka, K., additional, Trang, V. T. T., additional, Yoshida, S., additional, Wang, W., additional, Chan, W. M., additional, MAEDA, Tomohito, additional, Ohata, T., additional, Tetsuno, K., additional, Uehara, T., additional, Lee, X., additional, Temuge, B., additional, Akutagawa, K., additional, Kanagawa, K., additional, Katagiri, S., additional, Tsuzuki, M., additional, Yotsunaga, N., additional, Tamagawa, Y., additional, Ogawa, I., additional, Nakajima, K., additional, Noshiro, S., additional, Masuda, A., additional, Morishita, K., additional, Washino, M., additional, Takahashi, N., additional, Teranishi, K., additional, Tokaku, F., additional, Hiyama, T., additional, Fushimi, K., additional, Mori, K., additional, Hazama, R., additional, Nakatani, N., additional, Suzuki, K., additional, Ohsumi, H., additional, and Khai, B. T., additional

Published
2017
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47. CANDLES - Search for Neutrino-less Double Beta Decay of $\mathrm{^{48}Ca -}$

Author

Umehara, S., Kishimoto, T., Tanaka, M., Maeda, T., Yoshida, S., Suzuki, K., Kakubata, H., Wang, W., Trang, V. T. T., Chan, W. M., Doihara, M., Ohata, T., Nomachi, M., Tetsuno, K., Tamagawa, Y., Ogawa, I., Tomita, S., Fujita, G., Kawamura, A., Harada, T., Inukai, Y., Sakamoto, K., Yoshizawa, M., Ajimura, S., Fushimi, K., Hazama, R., Nakatani, N., Ohsumi, H., Okada, K., Iida, T., Nakajima, K., Ichimura, K., Matsuoka, K., Ishikawa, T., and Tanaka, D.

Subjects
calcium, double-beta decay, structure, low [background], performance
Abstract

CANDLES is the project to search for neutrino-less double beta decay of $^{48}$Ca.Now we installed the CANDLES III system at the Kamioka underground laboratory. The CANDLES III system realizes the low background condition by a characteristic structure and data analyses for background rejection. Here we report performances of the CANDLES III system.

Published
2014
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48. Status and future prospect of 48Ca double beta decay search in CANDLES

Author

Iida, T, primary, Nakajima, K, additional, Ajimura, S, additional, Batpurev, T, additional, Chan, W M, additional, Fushimi, K, additional, Hazama, R, additional, Kakubata, H, additional, Khai, B T, additional, Kishimoto, T, additional, Li, X, additional, Maeda, T, additional, Masuda, A, additional, Matsuoka, K, additional, Morishita, K, additional, Nakatani, N, additional, Nomachi, M, additional, Noshiro, S, additional, Ogawa, I, additional, Ohata, T, additional, Osumi, H, additional, Suzuki, K, additional, Tamagawa, Y, additional, Tesuno, K, additional, Trang, V T T, additional, Uehara, T, additional, Umehara, S, additional, and Yoshida, S, additional

Published
2016
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49. Development of CANDLES Low Background HPGe Detector and Half-life Measurement of 180Tam.

Author

Chan, W. M., Kishimoto, T., Umehara, S., Matsuoka, K., Suzuki, K., Yoshida, S., Nakajima, K., Iida, T., Fushimi, K., Nomachi, M., Ogawa, I., Tamagawa, Y., Hazama, R., Takemoto, Y., Nakatani, N., Takihira, Y., Tozawa, M., Kakubata, H., Trang, V. T. T., and Ohata, T.

Subjects
GERMANIUM detectors, HALF-life (Nuclear physics), RADON, RADIOACTIVE decay, MONTE Carlo method
Abstract

A low background HPGe detector system was developed at CANDLES Experimental Hall for multipurpose use. Various low background techniques were employed, including hermatic shield design, radon gas suppression, and background reduction analysis. A new pulse shape discrimination (PSD) method was specially created for coaxial Ge detector. Using this PSD method, microphonics noise and background event at low energy region less than 200 keV can be rejected effectively. Monte Carlo simulation by GEANT4 was performed to acquire the detection efficiency and study the interaction of gamma-rays with detector system. For rare decay measurement, the detector was utilized to detect the nature's most stable isomer tantalum-180m (180Tam) decay. Two phases of tantalum physics run were completed with total livetime of 358.2 days, which Phase II has upgraded shield configuration. The world most stringent half-life limit of 180Tam has been successfully achieved. [ABSTRACT FROM AUTHOR]

Published
2017
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50. The CANDLES Trigger System for the Study of Double Beta Decay of $^{48}{\rm Ca}$

Author

Maeda, T., primary, Ajimura, S., additional, Chan, W. M., additional, Fushimi, K., additional, Hazama, R., additional, Ichimura, K., additional, Iida, T., additional, Inukai, Y., additional, Ishikawa, T., additional, Kakubata, H., additional, Kishimoto, T., additional, Matsuoka, K., additional, Nakajima, K., additional, Nakatani, N., additional, Nomachi, M., additional, Ogawa, I., additional, Ohata, T., additional, Ohsumi, H., additional, Saka, M., additional, Sakamoto, K., additional, Seki, K., additional, Sugaya, Y., additional, Suzuki, K., additional, Tamagawa, Y., additional, Tanaka, D., additional, Tetsuno, K., additional, Trang, V. T. T., additional, Umehara, S., additional, Wang, W., additional, Yoshida, S., additional, and Yoshizawa, M., additional

Published
2015
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