Zobrazeno 1 - 10
of 49
pro vyhledávání: '"Kevin Hickerson"'
Autor:
L. Canonica, L. Marini, Kevin Hickerson, J. Schmidt, Massimiliano Clemenza, Carlo Cosmelli, S. Copello, L. Gladstone, M. Guerzoni, L. Ma, J. Johnston, A. Leder, M. Iannone, Irene Nutini, Paolo Carniti, Vladimir Datskov, R. J. Creswick, M. M. Deninno, G. Fantini, F. Bellini, I. C. Bandac, Yu-Gang Ma, D. Santone, V. Sharma, C. Brofferio, P. J. Mosteiro, A. Caminata, Ezio Previtali, B. Welliver, Evelyn Ferri, H. Z. Huang, G. Keppel, K. E. Lim, X. G. Cao, F. Bragazzi, Ettore Fiorini, V. Novati, C. Rusconi, N. Chott, T. Wise, C. Crescentini, R. Gaigher, L. Zanotti, Andrea Giachero, C. Maiano, N. Moggi, C. Martinez Amaya, S. S. Nagorny, A. Pelosi, G. Piperno, D. Q. Adams, L. Risegari, K. Alfonso, F. Terranova, Davide Chiesa, C. Rosenfeld, Deqing Fang, S. Pagan, S. Dell'Oro, M. L. Di Vacri, D. Mayer, Samuele Sangiorgio, Stefano Nisi, P. T. Surukuchi, S. Morganti, S. Zucchelli, J. Camilleri, A. Nucciotti, M. Sisti, P. Gorla, E. V. Hansen, F. Ferroni, C. Tomei, Elena Sala, L. Ioannucci, D. Speller, F. Alessandria, M. I. Martínez, Eugene E. Haller, C. Alduino, F. Rimondi, G. Ceruti, K. Wilson, L. Taffarello, Marisa Pedretti, R. Hennings-Yeomans, S. Pirro, Carlo Ligi, M. Faverzani, M. Beretta, Y. Mei, M. Tessaro, Jeffrey W. Beeman, M. Capodiferro, A. Bersani, N. D. Scielzo, M. Barucci, L. Cappelli, D. Biare, C. J. Davis, A. Camacho, Jonathan Ouellet, D. Conventi, J. Wallig, K. M. Heeger, L. Pagnanini, A. Giuliani, G. Bari, M. Cariello, Lindley Winslow, A. Campani, S. L. Wagaarachchi, M. Maino, Guoqiang Zhang, M. Carrettoni, R. Mazza, A. Branca, A. Bryant, J. Nikkel, C. Pira, H.W. Wang, M. Perego, T. I. Banks, S. Zimmermann, Ke Han, Reina H. Maruyama, S. Ghislandi, T. O'Donnell, S. Di Domizio, Simone Capelli, R. W. Kadel, Stuart J. Freedman, G. Ventura, A. Drobizhev, C. Bulfon, C. Zarra, Laura Cardani, V. Dompè, M. Balata, L. Di Paolo, A. D'Addabbo, L. Pattavina, B. K. Fujikawa, Stefano Pozzi, Alan R. Smith, D. Orlandi, Larissa M. Ejzak, M. Vignati, B. X. Zhu, V. Pettinacci, L. Kogler, E. Celi, L. Tatananni, S.H. Fu, E. Andreotti, M. A. Franceschi, R. Cereseto, I. Dafinei, M. Sakai, D. D'Aguanno, F. Stivanello, R. G. Huang, D. Schaeffer, C. Guandalini, F. Orio, Vasundhara Singh, B. Schmidt, B. S. Wang, O. Azzolini, Kai Vetter, M. Olcese, Jeremy S. Cushman, V. Palmieri, Eric B. Norman, M. Guetti, T. Napolitano, M. Biassoni, F. Del Corso, R. Faccini, Giovanni Benato, A. Buccheri, C. Salvioni, Yu. G. Kolomensky, R. Pedrotta, Lorenzo Cassina, C. Nones, A. Puiu, Marco Pallavicini, S. Quitadamo, G. Pessina, James R. Wilson, R. Liu, Massimiliano Nastasi, M. Pavan, E. Olivieri, L. Gironi, F. T. Avignone, Claudio Gotti, N. Casali, F. Reindl, Oliviero Cremonesi, J. Goett, M. Tenconi, C. Pagliarone, C. Rossi, A. Chiarini, C. Bucci, T. D. Gutierrez
Publikováno v:
Prog.Part.Nucl.Phys.
Prog.Part.Nucl.Phys., 2022, 122, pp.103902. ⟨10.1016/j.ppnp.2021.103902⟩
Prog.Part.Nucl.Phys., 2022, 122, pp.103902. ⟨10.1016/j.ppnp.2021.103902⟩
The past few decades have seen major developments in the design and operation of cryogenic particle detectors. This technology offers an extremely good energy resolution - comparable to semiconductor detectors - and a wide choice of target materials,
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::fa67cdb4d76d60897c179355be535a70
http://hdl.handle.net/10281/329673
http://hdl.handle.net/10281/329673
Autor:
W. Fox, A. R. Young, P. Geltenbort, E. I. Sharapov, P. L. Walstrom, Christopher Morris, R. Musedinovic, mi> τ, Zhehui Wang, S. Slutsky, B. W. Filippone, N. B. Callahan, Scott Currie, T. Bailey, Steven Clayton, J. Vanderwerp, L. Hayen, Kevin Hickerson, J. H. Choi, John Michael Ramsey, K. Hoffman, Wanchun Wei, F. Gonzalez, Mark A. Hoffbauer, Takeyasu M. Ito, A. T. Holley, Mark Makela, E. George, V. Su, D.J. Salvat, R. W. Pattie, Alexander Saunders, C. Cude-Woods, M. Blatnik, Christopher O'Shaughnessy, X. Sun, Eric Fries, Leah Broussard, C.-Y. Liu, W. Uhrich, mrow, E. B. Dees, C. Swank, A. Komives, Zhaowen Tang, M. Dawid
Publikováno v:
Phys.Rev.Lett.
Phys.Rev.Lett., 2021, 127 (16), pp.162501. ⟨10.1103/PhysRevLett.127.162501⟩
Phys.Rev.Lett., 2021, 127 (16), pp.162501. ⟨10.1103/PhysRevLett.127.162501⟩
We report an improved measurement of the free neutron lifetime $\tau_{n}$ using the UCN$\tau$ apparatus at the Los Alamos Neutron Science Center. We counted a total of approximately $38\times10^{6}$ surviving ultracold neutrons (UCN) after storing in
Autor:
S. W. T. MacDonald, Albert Young, Mark Makela, Samantha K. Lawrence, Takeyasu M. Ito, M. T. Hassan, Kevin Hickerson, Charles L. Morris, B. A. Johnson, D. E. Fellers, C. O'Shaughnessy, Levi P. Neukirch, J. C. Lambert, F. Gonzalez, Erik B. Watkins, Chen-Yu Liu, J. H. Choi, Z. Tang, A. T. Holley, S. M. Clayton, C. Cude-Woods, N. C. Floyd, Daniel E. Hooks, Alexander Saunders, Robert W. Pattie, B. A. Zeck, Scott Currie
In this paper we report studies of the Fermi potential and loss per bounce of ultracold neutron (UCN) on a deuterated scintillator (Eljen-299-02D). These UCN properties of the scintillator enables a wide variety of applications in fundamental neutron
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::69a9631be5520f3c4acbe5f780a25e88
http://arxiv.org/abs/2009.13517
http://arxiv.org/abs/2009.13517
Autor:
Chen-Yu Liu, Christopher Wrede, A. T. Holley, C. Cude-Woods, Steven Clayton, Sky Sjue, M. A. P. Brown, R. B. Vogelaar, J. Wexler, Christopher Morris, D. G. Phillips, A. Pérez Galván, Michael Pitt, B. Allgeier, T. L. Womack, D. J. Salvat, Jonathan W. Martin, R. Carr, B. W. Filippone, A. Knecht, Alejandro L. Garcia, Ran Hong, Nima Nouri, Takeyasu M. Ito, J. Hoagland, X. Sun, B. Plaster, Robert W. Pattie, X. Ding, E. Adamek, Zhehui Wang, R. Mammei, T. J. Bowles, D. B. Berguno, Leah Broussard, E. B. Dees, C. Swank, E. I. Sharapov, S. D. Moore, Syed Hamid Hasan, Y. Bagdasarova, J. Liu, R. Picker, S. Nepal, Wanchun Wei, M. P. Mendenhall, B. VornDick, A. R. Young, B. A. Zeck, Scott Currie, P. Geltenbort, M. Blatnik, Kevin Hickerson, W. E. Sondheim, S. Slutsky, M. Makela, Dan Melconian, E. Tatar, Alexander Saunders
Publikováno v:
Physical Review C
Physical Review C, American Physical Society, 2020, 101 (3), pp.035503. ⟨10.1103/PhysRevC.101.035503⟩
Physical Review C, American Physical Society, 2020, 101 (3), pp.035503. ⟨10.1103/PhysRevC.101.035503⟩
International audience; The Ultracold Neutron Asymmetry (UCNA) experiment was designed to measure the β-decay asymmetry parameter, A0, for free neutron decay. In the experiment, polarized ultracold neutrons are transported into a decay trap, and the
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::788573cb061d674cebbb8b556bcce720
https://resolver.caltech.edu/CaltechAUTHORS:20191203-074001740
https://resolver.caltech.edu/CaltechAUTHORS:20191203-074001740
Autor:
Kevin Hickerson, William F. Dunnill
Publikováno v:
Opflow. 44:16-18
Autor:
M. Blatnik, L. Hayen, E.M. Fries, Steven Clayton, C.-Y. Liu, Kevin Hickerson, Alexander Saunders, N. B. Callahan, T. Bailey, C.R. Chavez, Mark Makela, J. Wexler, C. Cude-Woods, Leah Broussard, E. J. Ramberg, D.J. Salvat, R. W. Pattie, F. Gonzalez, S.E. Holland, Zhehui Wang, Scott Currie, R. Musedinovic, Zhaowen Tang, J.H. Choi, K. Kuk, P. Geltenbort, E. I. Sharapov, C. O'Shaughnessy, B. Plaster, A. R. Young, A. T. Holley, Juan Estrada, M. T. Hassan, Wanchun Wei, Petra Merkel, B. W. Filippone, Christopher Morris, E.R. Adamek, X. Sun, M. A. P. Brown, Mark A. Hoffbauer, Takeyasu M. Ito
Publikováno v:
Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. 1003:165306
Ultracold neutron (UCN) projection imaging is demonstrated using a boron-coated back-illuminated CCD camera and the Los Alamos UCN source. Each neutron is recorded through the capture reactions with 10B. By direct detection at least one of the byprod
Autor:
R.W. Pattiejr., S. Seestrom, X. Sun, C.R. Chavez, J.W. Wexler, E.M. Fries, M. Blatnik, Z. Tang, D. Dinger, Mark A. Hoffbauer, Takeyasu M. Ito, Scott Currie, Leah Broussard, D.G. Phillips, P. L. Walstrom, E. I. Sharapov, Christopher Morris, P. Merkel, Sky Sjue, F. Gonzalez, C. O'Shaughnessy, E.R. Adamek, Brad Plaster, A. R. Young, K. Kuk, Zhehui Wang, Kevin Hickerson, Alexander Saunders, Chen-Yu Liu, E. J. Ramberg, B. A. Zeck, D. J. Salvat, Wanchun Wei, B. Filippone, T. L. Womack, P. Geltenbort, C. Cude-Woods, Steven Clayton, K. Hoffman, T. Bailey, Mark Makela, E. George, A.T. Holley, X. Ding, V. Su, J. H. Choi, M. A. P. Brown, S. W. T. MacDonald, N. B. Callahan, J. Estrada
A new boron-coated CCD camera is described for direct detection of ultracold neutrons (UCN) through the capture reactions $^{10}$B (n,$\alpha$0$\gamma$)$^7$Li (6%) and $^{10}$B(n,$\alpha$1$\gamma$)$^7$Li (94%). The experiments, which extend earlier w
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::8cd434856aaeed9fb4a7463a00a97633
https://doi.org/10.2172/1497998
https://doi.org/10.2172/1497998
Autor:
Alan R. Smith, Massimiliano Clemenza, Carlo Cosmelli, Oliviero Cremonesi, L. Canonica, L. Marini, Kevin Hickerson, L. Gladstone, M. Faverzani, C. Rosenfeld, R. Hennings-Yeomans, P. Gorla, F. Ferroni, B. X. Zhu, C. Tomei, S. Zucchelli, R. J. Creswick, Emanuele Ferri, Eugene E. Haller, C. Brofferio, James R. Wilson, P. J. Mosteiro, S. Zimmermann, C. Bucci, T. D. Gutierrez, Miriam Lucio Martinez, S. Morganti, D. R. Artusa, Monica Sisti, V. Palmieri, C. J. Davis, L. Carbone, N. Casali, A. Camacho, S. Copello, Eric B. Norman, T. Napolitano, Jeremy S. Cushman, G. Piperno, G. Bari, L. Zanotti, Ke Han, Reina H. Maruyama, Yu. G. Kolomensky, Luigi Cappelli, Davide Chiesa, K. E. Lim, Paolo Carniti, N. D. Scielzo, S. L. Wagaarachchi, Stuart J. Freedman, L. Taffarello, M. Maino, Lorenzo Cassina, Jeffrey W. Beeman, S. Trentalange, M. Biassoni, M. M. Deninno, S. Di Domizio, Y. Mei, I. Dafinei, Guimin Zhang, A. Bersani, A. D'Addabbo, N. Moggi, Simone Capelli, R. W. Kadel, M. Pavan, L. Gironi, F. T. Avignone, Claudio Gotti, H. Z. Huang, B. K. Fujikawa, S. Pirro, Stefano Dell'Oro, Carlo Ligi, Stefano Pozzi, C. Pira, Samuele Sangiorgio, H. W. Wang, G. Keppel, Xi-Guang Cao, A. Leder, F. Bellini, A. Nucciotti, Yu-Gang Ma, T. O'Donnell, A. Caminata, Ezio Previtali, T. I. Banks, K. M. Heeger, M. Vignati, A. Woodcraft, X. Liu, A. Giuliani, G. Fernandes, C. Alduino, F. Orio, Vasundhara Singh, J. Feintzeig, D. Santone, F. Terranova, Ettore Fiorini, E. V. Hansen, N. Chott, M. Tenconi, B. S. Wang, Marco Pallavicini, O. Azzolini, G. Pessina, K. Alfonso, M. L. Di Vacri, C. Nones, C. Rusconi, V. Pettinacci, L. Cardani, Lindley Winslow, L. Pattavina, A. Drobizhev, M. A. Franceschi, A. Giachero, D. Q. Fang, J. L. Ouellet, C. Pagliarone, T. Wise
Publikováno v:
Eur.Phys.J.C
Eur.Phys.J.C, 2019, 79 (9), pp.795. ⟨10.1140/epjc/s10052-019-7275-5⟩
Eur.Phys.J.C, 2019, 79 (9), pp.795. ⟨10.1140/epjc/s10052-019-7275-5⟩
We report on a search for double beta decay of $$^{130}\hbox {Te}$$130Te to the first $$0^{+}$$0+ excited state of $$^{130}\hbox {Xe}$$130Xe using a $$9.8\,\hbox {kg}\cdot \hbox {yr}$$9.8kg·yr exposure of $$^{130}\hbox {Te}$$130Te collected with the
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::d3dcd0caf5f49b9b734664fd988a7ca8
https://hal.archives-ouvertes.fr/hal-01952931
https://hal.archives-ouvertes.fr/hal-01952931
Autor:
E. B. Dees, John Ramsey, Robert W. Pattie, D. J. Morley, Mark Makela, Jose Ortiz, B. A. Zeck, E. I. Sharapov, J. Wexler, S. J. Seestrom, Albert Young, Scott Currie, K. K. H. Leung, Zhehui Wang, C. Cude-Woods, Charles L. Morris, Evan R. Adamek, N. B. Callahan, S. M. Clayton, Peter Geltenbort, Leah Broussard, Alexander Saunders, Kevin Hickerson, Tanner L. Womack, Mark A. Hoffbauer, Takeyasu M. Ito, X. Ding, Wanchun Wei, Chen-Yu Liu, Z. Tang, Sky Sjue, A. T. Holley
Publikováno v:
Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. 830:36-43
Position-sensitive detection of ultracold neutrons (UCNs) is demonstrated using an imaging charge-coupled device (CCD) camera. A spatial resolution less than 15 $\mu$m has been achieved, which is equivalent to an UCN energy resolution below 2 pico-el
Autor:
Robert W. Pattie, S. W. T. MacDonald, D. J. Salvat, C.-Y. Liu, Takeyasu M. Ito, S. M. Clayton, Christopher O'Shaughnessy, Mark Makela, M. Blatnik, Peter Geltenbort, Zhoawen Tang, Christopher Morris, Leah Broussard, Eric Fries, D. E. Fellers, Kevin Hickerson, J. H. Choi, C. Cude-Woods, F. Gonzalez, B. A. Zeck, Scott Currie, Alexander Saunders, Albert Young, Zhehui Wang, B. Plaster
Publikováno v:
Physical Review Letters. 121
Fornal and Grinstein recently proposed that the discrepancy between two different methods of neutron lifetime measurements, the beam and bottle methods, can be explained by a previously unobserved dark matter decay mode, $n\ensuremath{\rightarrow}X+\