Search Results - "Doe, P. J"

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  1. 1
    Dead layer on silicon p–i–n diode charged-particle detectors

    Dead layer on silicon p–i–n diode charged-particle detectors by Wall, B.L., Amsbaugh, J.F., Beglarian, A., Bergmann, T., Bichsel, H.C., Bodine, L.I., Boyd, N.M., Burritt, T.H., Chaoui, Z., Corona, T.J., Doe, P.J., Enomoto, S., Harms, F., Harper, G.C., Howe, M.A., Martin, E.L., Parno, D.S., Peterson, D.A., Petzold, L., Renschler, P., Robertson, R.G.H., Schwarz, J., Steidl, M., Van Wechel, T.D., VanDevender, B.A., Wüstling, S., Wierman, K.J., Wilkerson, J.F.

    “…Semiconductor detectors in general have a dead layer at their surfaces that is either a result of natural or induced passivation, or is formed during the…”
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  2. 2
    Solubility, light output and energy resolution studies of molybdenum-loaded liquid scintillators

    Solubility, light output and energy resolution studies of molybdenum-loaded liquid scintillators by Gehman, V.M., Doe, P.J., Robertson, R.G.H., Will, D.I., Ejiri, H., Hazama, R.

    “…The search for neutrinoless double-beta decay is an important part of the global neutrino physics program. One double-beta decay isotope currently under…”
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  3. 3
    Search for Neutrinoless Double- β Decay in Ge 76 with the Majorana Demonstrator

    Search for Neutrinoless Double- β Decay in Ge 76 with the Majorana Demonstrator by Aalseth, C. E., Abgrall, N., Aguayo, E., Alvis, S. I., Amman, M., Arnquist, I. J., Avignone, F. T., Back, H. O., Barabash, A. S., Barbeau, P. S., Barton, C. J., Barton, P. J., Bertrand, F. E., Bode, T., Bos, B., Boswell, M., Bradley, A. W., Brodzinski, R. L., Brudanin, V., Busch, M., Buuck, M., Caldwell, A. S., Caldwell, T. S., Chan, Y-D., Christofferson, C. D., Chu, P.-H., Collar, J. I., Combs, D. C., Cooper, R. J., Cuesta, C., Detwiler, J. A., Doe, P. J., Dunmore, J. A., Efremenko, Yu, Ejiri, H., Elliott, S. R., Fast, J. E., Finnerty, P., Fraenkle, F. M., Fu, Z., Fujikawa, B. K., Fuller, E., Galindo-Uribarri, A., Gehman, V. M., Gilliss, T., Giovanetti, G. K., Goett, J., Green, M. P., Gruszko, J., Guinn, I. S., Guiseppe, V. E., Hallin, A. L., Haufe, C. R., Hehn, L., Henning, R., Hoppe, E. W., Hossbach, T. W., Howe, M. A., Jasinski, B. R., Johnson, R. A., Keeter, K. J., Kephart, J. D., Kidd, M. F., Knecht, A., Konovalov, S. I., Kouzes, R. T., LaFerriere, B. D., Leon, J., Lesko, K. T., Leviner, L. E., Loach, J. C., Lopez, A. M., Luke, P. N., MacMullin, J., MacMullin, S., Marino, M. G., Martin, R. D., Massarczyk, R., McDonald, A. B., Mei, D.-M., Meijer, S. J., Merriman, J. H., Mertens, S., Miley, H. S., Miller, M. L., Myslik, J., Orrell, J. L., O’Shaughnessy, C., Othman, G., Overman, N. R., Perumpilly, G., Pettus, W., Phillips, D. G., Poon, A. W. P., Pushkin, K., Radford, D. C., Rager, J., Reeves, J. H., Reine, A. L., Rielage, K.

    Published in Physical review letters (26-03-2018)
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  4. 4
    Single-Electron Detection and Spectroscopy via Relativistic Cyclotron Radiation

    Single-Electron Detection and Spectroscopy via Relativistic Cyclotron Radiation by Asner, D M, Bradley, R F, de Viveiros, L, Doe, P J, Fernandes, J L, Fertl, M, Finn, E C, Formaggio, J A, Furse, D, Jones, A M, Kofron, J N, LaRoque, B H, Leber, M, McBride, E L, Miller, M L, Mohanmurthy, P, Monreal, B, Oblath, N S, Robertson, R G H, Rosenberg, L J, Rybka, G, Rysewyk, D, Sternberg, M G, Tedeschi, J R, Thümmler, T, VanDevender, B A, Woods, N L

    Published in Physical review letters (24-04-2015)
    “…It has been understood since 1897 that accelerating charges must emit electromagnetic radiation. Although first derived in 1904, cyclotron radiation from a…”
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  5. 5
    Tritium Beta Spectrum Measurement and Neutrino Mass Limit from Cyclotron Radiation Emission Spectroscopy

    Tritium Beta Spectrum Measurement and Neutrino Mass Limit from Cyclotron Radiation Emission Spectroscopy by Ashtari Esfahani, A., Böser, S., Buzinsky, N., Carmona-Benitez, M. C., Claessens, C., de Viveiros, L., Doe, P. J., Fertl, M., Formaggio, J. A., Gaison, J. K., Gladstone, L., Grando, M., Guigue, M., Hartse, J., Heeger, K. M., Huyan, X., Johnston, J., Jones, A. M., Kazkaz, K., LaRoque, B. H., Li, M., Lindman, A., Machado, E., Marsteller, A., Matthé, C., Mohiuddin, R., Monreal, B., Mueller, R., Nikkel, J. A., Novitski, E., Oblath, N. S., Peña, J. I., Pettus, W., Reimann, R., Robertson, R. G. H., Rosa De Jesús, D., Rybka, G., Saldaña, L., Schram, M., Slocum, P. L., Stachurska, J., Sun, Y.-H., Surukuchi, P. T., Tedeschi, J. R., Telles, A. B., Thomas, F., Thomas, M., Thorne, L. A., Thümmler, T., Tvrznikova, L., Van De Pontseele, W., VanDevender, B. A., Weintroub, J., Weiss, T. E., Wendler, T., Young, A., Zayas, E., Ziegler, A.

    Published in Physical review letters (08-09-2023)
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  6. 6
    Search for keV-scale sterile neutrinos with the first KATRIN data

    Search for keV-scale sterile neutrinos with the first KATRIN data by Aker, M., Batzler, D., Beglarian, A., Behrens, J., Berlev, A., Besserer, U., Bieringer, B., Block, F., Bobien, S., Bornschein, B., Böttcher, M., Caldwell, T. S., Chilingaryan, S., Choi, W., Debowski, K., Barrero, D. Díaz, Doe, P. J., Drexlin, G., Eitel, K., Ellinger, E., Engel, R., Enomoto, S., Felden, A., Formaggio, J. A., Fränkle, F. M., Franklin, G. B., Friedel, F., Fulst, A., Gauda, K., Gavin, A. S., Gil, W., Glück, F., Gumbsheimer, R., Haußmann, N., Helbing, K., Hickford, S., Hiller, R., Hinz, D., Höhn, T., Houdy, T., Huber, A., Karl, C., Kellerer, J., Kleifges, M., Klein, M., Köhler, C., Köllenberger, L., Kopmann, A., Korzeczek, M., Kovalík, A., Krasch, B., Krause, H., La Cascio, L., Le, T. L., Lehnert, B., Lokhov, A., Machatschek, M., Malcherek, E., Marsteller, A., Martin, E. L., Melzer, C., Mertens, S., Mostafa, J., Niemes, S., Parno, D. S., Poyato, J. M. L., Priester, F., Ramachandran, S., Rodejohann, W., Rodenbeck, C., Röllig, M., Röttele, C., Ryšavý, M., Salomon, R., Schäfer, P., Schimpf, L., Schlösser, M., Schlösser, K., Schlüter, L., Schneidewind, S., Schrank, M., Šefǧík, M., Slezák, M., Spanier, F., Steidl, M., Sturm, M., Thorne, L. A., Thümmler, T., Tkachev, I., Valerius, K., Vénos, D., Weinheimer, C., Welte, S., Wendel, J., Wetter, M., Wiesinger, C., Wolf, J., Wydra, J., Xu, W., Zeller, G.

    “…In this work we present a keV-scale sterile-neutrino search with a low-tritium-activity data set of the KATRIN experiment, acquired in a commissioning run in…”
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  7. 7
    Focal-plane detector system for the KATRIN experiment

    Focal-plane detector system for the KATRIN experiment by Amsbaugh, J.F., Barrett, J., Beglarian, A., Bergmann, T., Bichsel, H., Bodine, L.I., Bonn, J., Boyd, N.M., Burritt, T.H., Chaoui, Z., Chilingaryan, S., Corona, T.J., Doe, P.J., Dunmore, J.A., Enomoto, S., Formaggio, J.A., Fränkle, F.M., Furse, D., Gemmeke, H., Glück, F., Harms, F., Harper, G.C., Hartmann, J., Howe, M.A., Kaboth, A., Kelsey, J., Knauer, M., Kopmann, A., Leber, M.L., Martin, E.L., Middleman, K.J., Myers, A.W., Oblath, N.S., Parno, D.S., Peterson, D.A., Petzold, L., Phillips, D.G., Renschler, P., Robertson, R.G.H., Schwarz, J., Steidl, M., Tcherniakhovski, D., Thümmler, T., Van Wechel, T.D., VanDevender, B.A., Vöcking, S., Wall, B.L., Wierman, K.L., Wilkerson, J.F., Wüstling, S.

    “…The focal-plane detector system for the KArlsruhe TRItium Neutrino (KATRIN) experiment consists of a multi-pixel silicon p-i-n-diode array, custom readout…”
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  8. 8
    Precision measurement of the electron energy-loss function in tritium and deuterium gas for the KATRIN experiment

    Precision measurement of the electron energy-loss function in tritium and deuterium gas for the KATRIN experiment by Beglarian, A., Behrens, J., Berlev, A., Besserer, U., Bieringer, B., Bornschein, B., Bornschein, L., Böttcher, M., Caldwell, T. S., Carney, R. M. D., Chilingaryan, S., Choi, W., Debowski, K., Deffert, M., Descher, M., Barrero, D. Díaz, Doe, P. J., Dragoun, O., Drexlin, G., Eitel, K., Ellinger, E., Engel, R., Felden, A., Formaggio, J. A., Franklin, G. B., Friedel, F., Fulst, A., Gil, W., Groh, S., Grössle, R., Gumbsheimer, R., Haußmann, N., Heizmann, F., Helbing, K., Hickford, S., Hiller, R., Hillesheimer, D., Hinz, D., Höhn, T., Houdy, T., Jansen, A., Karl, C., Kellerer, J., Kleesiek, M., Köllenberger, L., Korzeczek, M., Kovalík, A., Krasch, B., Le, T. L., Lokhov, A., Machatschek, M., Malcherek, E., Mark, M., Marsteller, A., Melzer, C., Menshikov, A., Mertens, S., Mostafa, J., Müller, K., Oelpmann, P., Parno, D. S., Poon, A. W. P., Poyato, J. M. L., Priester, F., Ranitzsch, P. C.-O., Robertson, R. G. H., Rodejohann, W., Rodenbeck, C., Röllig, M., Ryšavý, M., Sack, R., Schäfer, P., Schaller (née Pollithy), A., Schimpf, L., Schlösser, K., Schneidewind, S., Schrank, M., Schulz, B., Schwachtgen, C., Šefčík, M., Seitz-Moskaliuk, H., Sibille, V., Siegmann, D., Slezák, M., Sturm, M., Sun, M., Tcherniakhovski, D., Titov, N., Tkachev, I., Urban, K., Valerius, K., Hernández, A. P. Vizcaya, Welte, S., Wendel, J., Wilkerson, J. F., Wolf, J., Wüstling, S., Xu, W., Zadoroghny, S., Zeller, G.

    “…The KATRIN experiment is designed for a direct and model-independent determination of the effective electron anti-neutrino mass via a high-precision…”
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  9. 9
    Electron Radiated Power in Cyclotron Radiation Emission Spectroscopy Experiments

    Electron Radiated Power in Cyclotron Radiation Emission Spectroscopy Experiments by Esfahani, A. Ashtari, Bansal, V, Boser, S, Buzinsky, N, Cervantes, R, Claessens, C, de Viveiros, L, Doe, P. J, Fertl, M, Formaggio, J. A, Gladstone, L, Guigue, M, Heeger, K. M, Johnston, J, Jones, A. M, Kazkaz, K, LaRoque, B. H, Leber, M, Lindman, A, Machado, E, Monreal, B, Morrison, E. C, Nikkel, J. A, Novitski, E, Oblath, N. S, Pettus, W, Robertson, R. G. H, Rybka, G, Saldana, L, Sibille, V, Schram, M, Slocum, P. L, Sun, Y-H, Tedeschi, J. R, Thummler, T, VanDevender, B. A, Wachtendonk, M, Walter, M, Weiss, T. E, Wendler, T, Zayas, E

    Published 09-01-2019
    “…Phys. Rev. C 99, 055501 (2019) The recently developed technique of Cyclotron Radiation Emission Spectroscopy (CRES) uses frequency information from the…”
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  10. 10
    Combined analysis of all three phases of solar neutrino data from the Sudbury Neutrino Observatory

    Combined analysis of all three phases of solar neutrino data from the Sudbury Neutrino Observatory by Aharmim, B., Ahmed, S. N., Anthony, A. E., Barros, N., Beier, E. W., Bellerive, A., Beltran, B., Bergevin, M., Biller, S. D., Boudjemline, K., Boulay, M. G., Cai, B., Chan, Y. D., Chauhan, D., Chen, M., Cleveland, B. T., Cox, G. A., Dai, X., Deng, H., Detwiler, J. A., DiMarco, M., Doe, PJ., Doucas, G., Drouin, P.-L., Duncan, F. A., Dunford, M., Earle, E. D., Elliott, S. R., Evans, H. C., Ewan, G. T., Farine, J., Fergani, H., Fleurot, F., Ford, R. J., Formaggio, J. A., Gagnon, N., Goon, J. TM, Graham, K., Guillian, E., Habib, S., Hahn, R. L., Hallin, A. L., Hallman, E. D., Harvey, P. J., Hazama, R., Heintzelman, W. J., Heise, J., Helmer, R. L., Hime, A., Howard, C., Huang, M., Jagam, P., Jamieson, B., Jelley, N. A., Jerkins, M., Keeter, K. J., Klein, J. R., Kormos, L. L., Kos, M., Kraus, C., Krauss, C. B., Kruger, A, Kutter, T., Kyba, C. C. M., Lange, R., Law, J., Lawson, I. T., Lesko, K. T., Leslie, J. R., Loach, J. C., MacLellan, R., Majerus, S., Mak, H. B., Maneira, J., Martin, R., McCauley, N., McDonald, A. B., McGee, S. R., Miller, M. L., Monreal, B., Monroe, J., Nickel, B. G., Noble, A. J., O’Keeffe, H. M., Oblath, N. S., Ollerhead, R. W., Orebi Gann, G. D., Oser, S. M., Ott, R. A., Peeters, S. J. M., Poon, A. W. P., Prior, G., Reitzner, S. D., Rielage, K., Robertson, B. C., Robertson, R. G. H., Rosten, R. C., Schwendener, M. H., Secrest, J. A., Seibert, S. R.

    Published in Physical review. C, Nuclear physics (01-08-2013)
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  11. 11
    Lead perchlorate as a neutrino detection medium

    Lead perchlorate as a neutrino detection medium by Stonehill, L.C., Bacrania, M.K., Doe, P.J., Elliott, S.R., Paul, C.E., Will, D.I.

    “…Lead can be an ideal medium for the detection and study of neutrinos. Such a detector may be realized through the use of a lead perchlorate (Pb(ClO 4) 2)…”
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  12. 12
    Reduction of stored-particle background by a magnetic pulse method at the KATRIN experiment

    Reduction of stored-particle background by a magnetic pulse method at the KATRIN experiment by Arenz, M., Baek, W.-J., Beck, M., Beglarian, A., Behrens, J., Bergmann, T., Berlev, A., Besserer, U., Blaum, K., Bode, T., Bornschein, B., Bornschein, L., Brunst, T., Buglak, W., Buzinsky, N., Chilingaryan, S., Deffert, M., Doe, P. J., Dragoun, O., Edzards, F., Eitel, K., Ellinger, E., Engel, R., Enomoto, S., Erhard, M., Eversheim, D., Formaggio, J. A., Fränkle, F. M., Franklin, G. B., Friedel, F., Gil, W., Glück, F., Ureña, A. Gonzalez, Grohmann, S., Grössle, R., Gumbsheimer, R., Hackenjos, M., Hannen, V., Harms, F., Helbing, K., Herz, W., Hickford, S., Hilk, D., Howe, M. A., Huber, A., Jansen, A., Kernert, N., Kippenbrock, L., Klein, M., Kopmann, A., Korzeczek, M., Kovalík, A., Krasch, B., Kraus, M., Kuckert, L., Lasserre, T., Lebeda, O., Letnev, J., Lokhov, A., Martin, E. L., Mirz, S., Monreal, B., Neumann, H., Niemes, S., Osipowicz, A., Otten, E., Parno, D. S., Pollithy, A., Poon, A. W. P., Ranitzsch, P. C.-O., Rest, O., Robertson, R. G. H., Roccati, F., Rodenbeck, C., Röllig, M., Röttele, C., Ryšavý, M., Schimpf, L., Schlösser, M., Schönung, K., Seitz-Moskaliuk, H., Sentkerestiová, J., Slezák, M., Steinbrink, N., Sturm, M., Telle, H. H., Thorne, L. A., Thümmler, T., Tkachev, I., Trost, N., Valerius, K., Vianden, R., Hernández, A. P. Vizcaya, Wandkowsky, N., Weinheimer, C., Weiss, C., Welte, S., Wendel, J., Wilkerson, J. F., Wüstling, S.

    “…The KATRIN experiment aims to determine the effective electron neutrino mass with a sensitivity of 0.2 eV/c 2 (%90 CL) by precision measurement of the shape of…”
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  13. 13
    Low-background (3)He proportional counters for use in the Sudbury neutrino observatory

    Low-background (3)He proportional counters for use in the Sudbury neutrino observatory by Browne, M C, Bowles, T J, Brice, S J, Doe, P J, Duba, C A, Elliott, S R, Esch, E I, Fowler, M M, Germani, J V, Goldschmidt, A, Heeger, K M, Hime, A, Lesko, K T, Miller, G G, Ollerhead, R W, Poon, A W P, Robertson, R G H, Smith, M W E, Steiger, T D

    Published in IEEE transactions on nuclear science (01-08-1999)
    “…Current solar neutrino detectors measure a considerably lower flux of electron-flavor neutrinos than predicted by solar models. This could be an indication of…”
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  14. 14
    Experimental study of neutrino absorption on carbon

    Experimental study of neutrino absorption on carbon by Krakauer, DA, Talaga, RL, Allen, RC, Chen, HH, Hausammann, R, Lee, WP, Mahler, HJ, Lu, XQ, Wang, KC, Bowles, TJ, Burman, RL, Carlini, RD, Cochran, DR, Doe, PJ, Frank, JS, Piasetzky, E, Potter, ME, Sandberg, VD

    Published in Physical review. C, Nuclear physics (01-05-1992)
    “…The process of electron emission from {similar to}30 MeV neutrino absorption on carbon, {sup 12}C({nu}{sub {ital e}},{ital e}{sup {minus}}){sup 12}N, has been…”
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  15. 15
    Single electron detection and spectroscopy via relativistic cyclotron radiation

    Single electron detection and spectroscopy via relativistic cyclotron radiation by Asner, D. M, Bradley, R. F, de Viveiros, L, Doe, P. J, Fernandes, J. L, Fertl, M, Finn, E. C, Formaggio, J. A, Furse, D, Jones, A. M, Kofron, J. N, LaRoque, B. H, Leber, M, McBride, E. L, Miller, M. L, Mohanmurthy, P, Monreal, B, Oblath, N. S, Robertson, R. G. H, Rosenberg, L. J, Rybka, G, Rysewyk, D, Sternberg, M. G, Tedeschi, J. R, Thummler, T, VanDevender, B. A, Woods, N. L

    Published 01-05-2015
    “…Phys. Rev. Lett. 114, 162501 (2015) It has been understood since 1897 that accelerating charges must emit electromagnetic radiation. Cyclotron radiation, the…”
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  16. 16
    Calibration of high voltages at the ppm level by the difference of $$^{83{\mathrm{m}}}$$ 83m Kr conversion electron lines at the KATRIN experiment

    Calibration of high voltages at the ppm level by the difference of $$^{83{\mathrm{m}}}$$ 83m Kr conversion electron lines at the KATRIN experiment by M. Arenz, W.-J. Baek, M. Beck, A. Beglarian, J. Behrens, T. Bergmann, A. Berlev, U. Besserer, K. Blaum, T. Bode, B. Bornschein, L. Bornschein, T. Brunst, N. Buzinsky, S. Chilingaryan, W. Q. Choi, M. Deffert, P. J. Doe, O. Dragoun, G. Drexlin, S. Dyba, F. Edzards, K. Eitel, E. Ellinger, R. Engel, S. Enomoto, M. Erhard, D. Eversheim, M. Fedkevych, S. Fischer, J. A. Formaggio, F. M. Fränkle, G. B. Franklin, F. Friedel, A. Fulst, W. Gil, F. Glück, A. Gonzalez Ureña, S. Grohmann, R. Grössle, R. Gumbsheimer, M. Hackenjos, V. Hannen, F. Harms, N. Haußmann, F. Heizmann, K. Helbing, W. Herz, S. Hickford, D. Hilk, D. Hillesheimer, M. A. Howe, A. Huber, A. Jansen, J. Kellerer, N. Kernert, L. Kippenbrock, M. Kleesiek, M. Klein, A. Kopmann, M. Korzeczek, A. Kovalík, B. Krasch, M. Kraus, L. Kuckert, T. Lasserre, O. Lebeda, J. Letnev, A. Lokhov, M. Machatschek, A. Marsteller, E. L. Martin, S. Mertens, S. Mirz, B. Monreal, H. Neumann, S. Niemes, A. Off, A. Osipowicz, E. Otten, D. S. Parno, A. Pollithy, A. W. P. Poon, F. Priester, P. C.-O. Ranitzsch, O. Rest, R. G. H. Robertson, F. Roccati, C. Rodenbeck, M. Röllig, C. Röttele, M. Ryšavý, R. Sack, A. Saenz, L. Schimpf, K. Schlösser, M. Schlösser, K. Schönung, M. Schrank, H. Seitz-Moskaliuk

    “…Abstract The neutrino mass experiment KATRIN requires a stability of 3 ppm for the retarding potential at − 18.6 kV of the main spectrometer. To monitor the…”
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  17. 17
    Study of electron-neutrino-electron elastic scattering at LAMPF

    Study of electron-neutrino-electron elastic scattering at LAMPF by ALLEN, R. C, CHEN, H. H, BURMAN, R. L, CARLINI, R. D, COCHRAN, D. R. F, FRANK, J. S, PIASETZKY, E, SANDBERG, V. D, KRAKAUER, D. A, TALAGA, R. L, DOE, P. J, HAUSAMMANN, R, LEE, W. P, LU, X. Q, MHALER, H. J, POTTER, M. E, WANG, K. C, BOWLES, T. J

    “…Neutrino-electron elastic scattering was observed with a 15-ton fine-grained tracking calorimeter exposed to electron neutrinos from muon decay at rest. The…”
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  18. 18
    Single-electron detection and spectroscopy via relativistic cyclotron radiation

    Single-electron detection and spectroscopy via relativistic cyclotron radiation by Asner, D. M., Bradley, R. F., de Viveiros, L., Doe, P. J., Fernandes, J. L., Fertl, M., Finn, E. C., Formaggio, J. A., Furse, D., Jones, A. M., Kofron, J. N., LaRoque, B. H., Leber, M., McBride, E. L., Miller, M. L., Mohanmurthy, P., Monreal, B., Oblath, N. S., Robertson, R. G. H., Rosenberg, L. J., Rybka, G., Rysewyk, D., Sternberg, M. G., Tedeschi, J. R., Thummler, T., VanDevender, B. A., Woods, N. L.

    Published in Physical review letters (20-04-2015)
    “…It has been understood since 1897 that accelerating charges should emit electromagnetic radiation. Cyclotron radiation, the particular form of radiation…”
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  19. 19
    Focal-plane detector system for the KATRIN experiment

    Focal-plane detector system for the KATRIN experiment by Amsbaugh, J. F, Barrett, J, Beglarian, A, Bergmann, T, Bichsel, H, Bodine, L. I, Bonn, J, Boyd, N. M, Burritt, T. H, Chaoui, Z, Chilingaryan, S, Corona, T. J, Doe, P. J, Dunmore, J. A, Enomoto, S, Fischer, J, Formaggio, J. A, Fränkle, F. M, Furse, D, Gemmeke, H, Glück, F, Harms, F, Harper, G. C, Hartmann, J, Howe, M. A, Kaboth, A, Kelsey, J, Knauer, M, Kopmann, A, Leber, M. L, Martin, E. L, Middleman, K. J, Myers, A. W, Oblath, N. S, Parno, D. S, Peterson, D. A, Petzold, L, PhillipsII, D. G, Renschler, P, Robertson, R. G. H, Schwarz, J, Steidl, M, Tcherniakhovski, D, Thümmler, T, Van Wechel, T. D, VanDevender, B. A, Vöcking, S, Wall, B. L, Wierman, K. L, Wilkerson, J. F, Wüstling, S

    Published 28-01-2015
    “…Nucl. Inst. Meth. A 778 (2015) 40-60 The focal-plane detector system for the KArlsruhe TRItium Neutrino (KATRIN) experiment consists of a multi-pixel silicon…”
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  20. 20
    Dead layer on silicon p-i-n diode charged-particle detectors

    Dead layer on silicon p-i-n diode charged-particle detectors by Wall, B. L, Amsbaugh, J. F, Beglarian, A, Bergmann, T, Bichsel, H. C, Bodine, L. I, Boyd, N. M, Burritt, T. H, Chaoui, Z, Corona, T. J, Doe, P. J, Enomoto, S, Harms, F, Harper, G. C, Howe, M. A, Martin, E. L, Parno, D. S, Peterson, D. A, Petzold, L, Renschler, P, Robertson, R. G. H, Schwarz, J, Steidl, M, Van Wechel, T. D, VanDevender, B. A, Wüstling, S, Wierman, K. J, Wilkerson, J. F

    Published 07-10-2013
    “…NIM A 744 (2014), 73--79 Semiconductor detectors in general have a dead layer at their surfaces that is either a result of natural or induced passivation, or…”
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