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1141“…The γ-rays are measured with an electron-tracking Compton camera (ETCC). We calculated the relative intensities of the γ-rays from (95g)Tc and (96g)Tc. …”
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1142por Kulpe, Stephanie, Dierolf, Martin, Braig, Eva, Günther, Benedikt, Achterhold, Klaus, Gleich, Bernhard, Herzen, Julia, Rummeny, Ernst, Pfeiffer, Franz, Pfeiffer, Daniela“…Compact synchrotron X-ray sources based on inverse Compton scattering, which have been evolving substantially over the past decade, provide X-rays with sufficient brilliance that meet spatial and financial requirements affordable in laboratory settings or for university hospitals. …”
Publicado 2018
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1143“…Direct photon production in hadronic collisions provides a handle on the gluon PDF by means of the QCD Compton scattering process. In this work we revisit the impact of direct photon production on a global PDF analysis, motivated by the recent availability of the next-to-next-to-leading (NNLO) calculation for this process. …”
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1144por Zurnic, Irena, Hütter, Sylvia, Lehmann, Ute, Stanke, Nicole, Reh, Juliane, Kern, Tobias, Lindel, Fabian, Gerresheim, Gesche, Hamann, Martin, Müllers, Erik, Lesbats, Paul, Cherepanov, Peter, Serrao, Erik, Engelman, Alan, Lindemann, Dirk, Da Silva Santos, Claire, Tartour, Kevin, Cimarelli, Andrea, Burdick, Rya, Chen, Jianbo, Sastri, Jaya, Hu, Wei-Shau, Pathak, Vinay, Keppler, Oliver T., Pradeau, Karine, Eiler, Sylvia, Levy, Nicolas, Lennon, Sarah, Cianferani, Sarah, Emiliani, Stéphane, Ruff, Marc, Parissi, Vincent, Rato, Sylvie, Rausell, Antonio, Munoz, Miguel, Telenti, Amalio, Ciuffi, Angela, Zhyvoloup, Alexander, Melamed, Anat, Anderson, Ian, Planas, Delphine, Kriston-Vizi, Janos, Ketteler, Robin, Lee, Chen- Hsuin, Merritt, Andy, Ancuta, Petronela, Bangham, Charles, Fassati, Ariberto, Rodari, Anthony, Van Driessche, Benoit, Galais, Mathilde, Delacourt, Nadége, Fauquenoy, Sylvain, Vanhulle, Caroline, Kula, Anna, Burny, Arsène, Rohr, Olivier, Van Lint, Carine, van Montfort, Thijs, van der Sluis, Renee, Speijer, Dave, Berkhout, Ben, Meng, Bo, Rutkowski, Andrzej, Berry, Neil, Dölken, Lars, Lever, Andrew, Schuster, Thomas, Asbach, Benedikt, Wagner, Ralf, Gross, Christine, Wiesmann, Veit, Kalmer, Martina, Wittenberg, Thomas, Gettemans, Jan, Thoma-Kress, Andrea K., Li, Minghua, Freed, Eric O., Liu, Shan-Lu, Müller, Janis, Münch, Jan, Sewald, Xaver, Uchil, Pradeep, Ladinsky, Mark, Beloor, Jagadish, Pi, Ruoxi, Herrmann, Christin, Motamedi, Nasim, Murooka, Thomas, Brehm, Michael, Greiner, Dale, Mempel, Thorsten, Bjorkman, Pamela, Kumar, Priti, Mothes, Walther, Joas, Simone, Parrish, Erica, Gnanadurai, Clement Wesley, Lump, Edina, Stürzel, Christina M., Parrish, Nicholas F., Sauermann, Ulrike, Töpfer, Katharina, Schultheiss, Tina, Bosinger, Steven, Silvestri, Guido, Apetrei, Cristian, Huot, Nicholas, Müller-Trutwin, Michaela, Sauter, Daniel, Hahn, Beatrice H., Stahl-Hennig, Christiane, Kirchhoff, Frank, Schumann, Gerald, Jung-Klawitter, Sabine, Fuchs, Nina V., Upton, Kyle R., Muñoz-Lopez, Martin, Shukla, Ruchi, Wang, Jichang, Garcia-Canadas, Marta, Lopez-Ruiz, Cesar, Gerhardt, Daniel J., Sebe, Attila, Grabundzija, Ivana, Gerdes, Patricia, Merkert, Sylvia, Pulgarin, Andres, Bock, Anja, Held, Ulrike, Witthuhn, Anett, Haase, Alexandra, Wolvetang, Ernst J., Martin, Ulrich, Ivics, Zoltán, Izsvák, Zsuzsanna, Garcia-Perez, J., Faulkner, Geoffrey J., Hurst, Tara, Katzourakis, Aris, Magiorkinis, Gkikas, Schott, Kerstin, Derua, Rita, Seifried, Janna, Reuter, Andreas, Schmitz, Heike, Tondera, Christiane, Brandariz-Nuñez, Alberto, Diaz-Griffero, Felipe, Janssens, Veerle, König, Renate, Baldauf, Hanna-Mari, Stegmann, Lena, Schwarz, Sarah-Marie, Trotard, Maud, Martin, Margarethe, Lenzi, Gina, Burggraf, Manja, Pan, Xiaoyu, Fregoso, Oliver I., Lim, Efrem S., Abraham, Libin, Erikson, Elina, Nguyen, Laura, Ambiel, Ina, Rutsch, Frank, Kim, Baek, Emerman, Michael, Fackler, Oliver T., Wittmann, Sabine, Behrendt, Rayk, Volkmann, Bianca, Eissmann, Kristin, Gramberg, Thomas, Bolduan, Sebastian, Koppensteiner, Herwig, Regensburg, Stefanie, Brack-Werner, Ruth, Draenert, Rika, Schindler, Michael, Ducroux, Aurélie, Xu, Shuting, Ponnurangam, Aparna, Franz, Sergej, Malassa, Angelina, Ewald, Ellen, Goffinet, Christine, Fung, Sin-Yee, Chan, Ching-Ping, Yuen, Chun-Kit, Kok, Kin-Hang, Chan, Chin-Ping, Jin, Dong-Yan, Dittmer, Ulf, Kmiec, Dorota, Iyer, Shilpa, Stürzel, Christina, Hahn, Beatrice, Ariumi, Yasuo, Yasuda-Inoue, Mariko, Kawano, Koudai, Tateishi, Satoshi, Turelli, Priscilla, Compton, Alex, Roy, Nicolas, Porrot, Françoise, Billet, Anne, Casartelli, Nicoletta, Yount, Jacob, Liang, Chen, Schwartz, Oliver, Magnus, Carsten, Reh, Lucia, Moore, Penny, Uhr, Therese, Weber, Jacqueline, Morris, Lynn, Trkola, Alexandra, Grindberg, Rashel V., Schlaepfer, Erika, Schreiber, Gideon, Simon, Viviana, Speck, Roberto F., Debyser, Zeger, Vranckx, Lenard, Demeulemeester, Jonas, Saleh, Suha, Verdin, Eric, Cereseto, Anna, Christ, Frauke, Gijsbers, Rik, Wang, Gang, Zhao, Na, Das, Atze T., Köstler, Josef, Perdiguero, Beatriz, Esteban, Mariano, Jacobs, Bertram L., Montefiori, David C., LaBranche, Celia C., Yates, Nicole L., Tomaras, Georgia D., Ferrari, Guido, Foulds, Kathryn E., Roederer, Mario, Landucci, Gary, Forthal, Donald N., Seaman, Michael S., Hawkins, Natalie, Self, Steven G., Phogat, Sanjay, Tartaglia, James, Barnett, Susan W., Burke, Brian, Cristillo, Anthony D., Ding, Song, Heeney, Jonathan L., Pantaleo, Giuseppe, Stab, Viktoria, Ensser, Armin, Tippler, Bettina, Burton, Dennis, Tenbusch, Matthias, Überla, Klaus, Alter, Galit, Lofano, Giuseppe, Dugast, Anne-Sophie, Kulkarni, Viraj, Suscovich, Todd, Opazo, Tatiana, Barraza, Felipe, Herrera, Diego, Garces, Andrea, Schwenke, Tomas, Tapia, Diego, Cancino, Jorge, Arriagada, Gloria, Haußner, Christina, Damm, Dominik, Rohrhofer, Anette, Schmidt, Barbara, Eichler, Jutta, Midgley, Rebecca, Wheeldon, James, Piguet, Vincent, Khopkar, Priyanka, Rohamare, Megha, Kulkarni, Smita, Godinho-Santos, Ana, Hance, Allan, Goncalves, Joao, Mammano, Fabrizio, Gasser, Romain, Hamoudi, Meriem, Pellicciotta, Martina, Zhou, Zhicheng, Visdeloup, Clara, Colin, Philippe, Braibant, Martine, Lagane, Bernard, Negroni, Matteo, Wamara, Jula, Bannert, Norbert, Mesplede, Thibault, Osman, Nathan, Anstett, Kaitlin, Liang, Jiaming Calvin, Pham, Hanh Thi, Wainberg, Mark, Shao, Wei, Shan, Jigui, Kearney, Mary, Wu, Xiaolin, Maldarelli, Frank, Mellors, John, Luke, Brian, Coffin, John, Hughes, Stephen, Fricke, Thomas, Opp, Silvana, Shepard, Caitlin, Ivanov, Dmitri, Valle-Casuso, Jose, Kanja, Marine, Cappy, Pierre, Negroni, Matteo, Lener, Daniela, Knyazhanskaya, Ekaterina, Anisenko, Andrey, Zatsepin, Timofey, Gottikh, Marina, Komkov, Alexander, Minervina, Anastasia, Nugmanov, Gaiaz, Nazarov, Vadim, Khodosevich, Konstantin, Mamedov, Ilgar, Lebedev, Yuri, Colomer-Lluch, Marta, Serra-Moreno, Ruth, Sarracino, Ambra, Gharu, Lavina, Pasternak, Alexander, Marcello, Alessandro, McCartin, Ann Marie, Kulkarni, Anurag, 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Alina, Henklein, Petra, Traxdorf, Maximilian, Fossen, Torgils, Schubert, Ulrich, Khwaja, Aya, Galilee, Meytal, Alian, Akram, Schwalbe, Birco, Hauser, Heiko, Schreiber, Michael, Scherpenisse, Mirte, Cho, Young-Keol, Kim, Jungeun, Jeong, Daeun, Trejbalova, Katerina, Benesova, Martina, Kucerova, Dana, Vernerova, Zdenka, Amouroux, Rachel, Hajkova, Petra, Elleder, Daniel, Hron, Tomas, Farkasova, Helena, Padhi, Abinash, Paces, Jan, Zhu, Henan, Gifford, Robert, Murcia, Pablo, Carrozza, Maria Luisa, Niewiadomska, Anna-Maria, Mazzei, Maurizio, Abi-Said, Mounir, Hughes, Joseph, Hué, Stéphane, Gifford, Robert, Obasa, Adetayo, Jacobs, Graeme, Engelbrecht, Susan, Mack, Katharina, Starz, Kathrin, Geyer, Matthias, Bibollet-Ruche, Frederic, Stürzel, Christina, Leoz, Marie, Plantier, Jean Christophe, Argaw-Denboba, Ayele, Balestrieri, Emanuela, Serafino, Annalucia, Bucci, Ilaria, Cipriani, Chiara, Spadafora, Corrado, Sinibaldi-Vallebona, Paolo, Matteucci, Claudia, Jayashree, S. Nandi, Neogi, Ujjwal, Chhangani, Anil K., Rathore, Shravan Sing, Mathur, Bajrang R. J., Abati, Adeyemi, Koç, B. Taylan, Oğuzoğlu, Tuba Çiğdem, Shimauchi, Takatoshi, Caucheteux, Stephan, Turpin, Jocelyn, Finsterbusch, Katja, Tokura, Yoshiki, Souriant, Shanti, Balboa, Luciana, Pingris, Karine, Kviatcowsky, Denise, Raynaud-Messina, Brigitte, Cougoule, Céline, Mercier, Ingrid, Kuroda, Marcelo, González-Montaner, Pablo, Inwentarz, Sandra, Moraña, Eduardo Jose, del Carmen Sasiain, Maria, Neyrolles, Olivier, Maridonneau-Parini, Isabelle, Lugo-Villarino, Geanncarlo, Vérollet, Christel, Herrmann, Alexandra, Thomas, Dominique, Bouzas, Nerea Ferreirós, Lahaye, Xavier, Bhargava, Anvita, Satoh, Takeshi, Gentili, Matteo, Cerboni, Silvia, Silvin, Aymeric, Conrad, Cécile, Ahmed-Belkacem, Hakim, Rodriguez, Elisa C., Guichou, Jean-François, Bosquet, Nathalie, Piel, Matthieu, Le Grand, Roger, King, Megan, Pawlotsky, Jean-Michel, Manel, Nicolas, Hofmann, Henning, Vanwalscappel, Benedicte, Bloch, Nicolin, Landau, Nathaniel, Indik, Stanislav, Hagen, Benedikt, Valle-Casuso, José Carlos, Allouch, Awatef, David, Annie, Barré-Sinoussi, Françoise, Benkirane, Monsef, Pancino, Gianfranco, Saez-Cirion, Asier, Lee, Wing-Yiu, Sloan, Richard, Schulte, Bianca, Opp, Silvana, Blomberg, Jonas, Vargiu, Luana, Rodriguez-Tomé, Patricia, Tramontano, Enzo, Sperber, Göran, Kumari, Namita, Ammosova, Tatiana, Diaz, Sharmeen, Oneal, Patricia, Nekhai, Sergei, Fahrny, Audrey, Gers-Huber, Gustavo, Audigé, Annette, Jayaprakash, Anitha, Sachidanandam, Ravi, Hernandez, Matt, Dillon-White, Marsha, Souriant, Shanti, Pingris, Karine, Raynaud-Messina, Brigitte, Cougoule, Céline, Mercier, Ingrid, Neyrolles, Olivier, Maridonneau-Parini, Isabelle, Lugo-Villarino, Geanncarlo, Maze, Emmanuel, Ham, Claire, Almond, Neil, Towers, Greg, Belshaw, Robert, de Sousa-Pereira, Patrícia, Abrantes, Joana, Pizzato, Massimo, Esteves, Pedro J., Kahle, Tanja, Schmitt, Sven, Merkel, Laura, Reuter, Nina, Stamminger, Thomas, Rosa, Ilaria Dalla, Bishop, Kate, Spinazzola, Antonella, Groom, Harriet, Vieyres, Gabrielle, Müsken, Mathias, Zillinger, Thomas, Hornung, Veit, Barchet, Winfried, Häussler, Susanne, Pietschmann, Thomas, Javed, Aneela, Leuchte, Nicole, Salinas, Gabriela, Opitz, Lennart, Sopper, Sieghart, Mummert, Christiane, Hofmann, Christian, Hückelhoven, Angela G., Bergmann, Silke, Müller-Schmucker, Sandra M., Harrer, Ellen G., Dörrie, Jan, Schaft, Niels, Harrer, Thomas, Cardinaux, Laure, Zahno, M.- L., Vogt, H.- R., Zanoni, R., Bertoni, G., Muenchhoff, Maximilian, Goulder, Philip, Keppler, Oliver, Rebensburg, Stephanie, Helfer, Markus, Zhang, Yuwei, Chen, Huicheng, Bernier, Annie, Gosselin, Annie, Routy, Jean- Pierre, Wöhrl, Birgitta, Schneider, Anna, Corona, Angela, Spöring, Imke, Jordan, Mareike, Buchholz, Bernd, Maccioni, Elias, Di Santo, Roberto, Schweimer, Kristian, Schölz, Christian, Weinert, Brian, Wagner, Sebastian, Beli, Petra, Miyake, Yasuyuki, Qi, Jun, Jensen, Lars, Streicher, Werner, McCarthy, Anna, Westwood, Nicholas, Lain, Sonia, Cox, Jürgen, Matthias, Patrick, Mann, Matthias, Bradner, James, Choudhary, Chunaram, Stern, Marcel, Valletta, Elena, Frezza, Caterina, Marino-Merlo, Francesca, Grelli, Sandro, Serafino, Anna Lucia, Mastino, Antonio, Macchi, Beatrice, Kaulfuß, Meike, Windmann, Sonja, Bayer, Wibke, Mikasi, Sello, Jacobs, Graeme, Heß, Rebecca, Bonsmann, Michael Storcksdieck gen., Kirschning, Carsten, Lepenies, Bernd, Kolenbrander, Anne, Temchura, Vladimir, Iijima, Kenta, Kobayashi, Junya, Ishizaka, Yukihito“…Keppler O22 The role of SAMHD1 in antiviral restriction and immune sensing in the mouse Sabine Wittmann, Rayk Behrendt, Bianca Volkmann, Kristin Eissmann, Thomas Gramberg O23 T cells expressing reduced restriction factors are preferentially infected in therapy naïve HIV-1 patients Sebastian Bolduan, Herwig Koppensteiner, Stefanie Regensburg, Ruth Brack-Werner, Rika Draenert, Michael Schindler O24 cGAS-mediated innate immunity spreads through HIV-1 env-induced membrane fusion sites from infected to uninfected primary HIV-1 target cells Aurélie Ducroux, Shuting Xu, Aparna Ponnurangam, Sergej Franz, Angelina Malassa, Ellen Ewald, Christine Goffinet O25 Perturbation of innate RNA and DNA sensing by human T cell leukemia virus type 1 oncoproteins Sin-Yee Fung, Ching-Ping Chan, Chun-Kit Yuen, Kin-Hang Kok, Chin-Ping Chan, Dong-Yan Jin O26 Induction and anti-viral activity of Interferon α subtypes in HIV-1 infection Ulf Dittmer O27 Vpu-mediated counteraction of tetherin is a major determinant of HIV-1 interferon resistance Dorota Kmiec, Shilpa Iyer, Christina Stürzel, Daniel Sauter, Beatrice Hahn, Frank Kirchhoff O28 DNA repair protein Rad18 restricts HIV-1 and LINE-1 life cycle Yasuo Ariumi, Mariko Yasuda-Inoue, Koudai Kawano, Satoshi Tateishi, Priscilla Turelli O29 Natural mutations in IFITM3 allow escape from post-translational regulation and toggle antiviral specificity Alex Compton, Nicolas Roy, Françoise Porrot, Anne Billet, Nicoletta Casartelli, Jacob Yount, Chen Liang, Oliver Schwartz Session 8: Adaptive immunity & immune evasion O30 Observing evolution in HIV-1 infection: phylogenetics and mutant selection windows to infer the influence of the autologous antibody response on the viral quasispecies Carsten Magnus, Lucia Reh, Penny Moore, Therese Uhr, Jacqueline Weber, Lynn Morris, Alexandra Trkola O31 Dose and subtype specific analyses of the anti-HIV effects of IFN-alpha family members Rashel V. …”
Publicado 2016
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1145“…Two radiation mechanisms, inverse Compton scattering (ICS) and synchrotron radiation (SR), suffice within the cannonball (CB) model of long gamma ray bursts (LGRBs) and X-ray flashes (XRFs) to provide a very simple and accurate description of their observed prompt emission and afterglows. …”
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1146“…It proposes designs for Positron Emission Tomography (PET), Positron Emission Mammography (PEM) and Compton gamma camera detectors with a large number of signal channels (of the order of 10(6)). …”
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1147“…A small spot is rastered across an individual and the Compton scatter signal collected by these detectors is quickly integrated and assigned to a pixel value in an image corresponding to the transient location of the small flying spot. …”
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1148por Golovin, G., Banerjee, S., Liu, C., Chen, S., Zhang, J., Zhao, B., Zhang, P., Veale, M., Wilson, M., Seller, P., Umstadter, D.“…It employed an intense laser probe pulse, and spectroscopic imaging of the inverse-Compton scattered x-rays, allowing measurement of an ultra-low value for the normalized transverse emittance, 0.15 (±0.06) π mm mrad, as well as study of its subsequent growth upon exiting the accelerator. …”
Publicado 2016
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1149por Sutter, John P., Boada, Roberto, Bowron, Daniel T., Stepanov, Sergey A., Díaz-Moreno, Sofía“…A fitting procedure that treats coherent and Compton scattering is developed and applied to a sample of an extremely dilute (100 micromolal) aqueous solution of Ni(NO(3))(2). …”
Publicado 2016
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1150“…In terms of photon flux and coherence length, the performance of the line focus x-ray tube compares with inverse Compton scattering sources. Dose rates of up to 180 Gy [Formula: see text] can be reached in 50 cm distance from the focal spot. …”
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1151“…Beside the classic X-ray attenuation signal dominated by photoelectric effect, Compton effect and Rayleigh scattering, X-ray diffraction resulting in the crystalline structure of the 4H-SiC superimposes the reconstructed result. …”
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1152por Feng, B., Qin, C. Y., Geng, X. S., Yu, Q., Wang, W. Q., Wu, Y. T., Yan, X., Ji, L. L., Shen, B. F.“…High energy gamma-photons are emitted through inverse Compton scattering (ICS) during collision. Three-dimensional particle-in-cell simulations reveal that the spin angular momentum (SAM) of the CP laser can be transferred to the OAM of accelerated electrons and further to the emitted gamma-ray beam. …”
Publicado 2019
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1153“…Photons are emitted due to the inverse Compton scattering when accelerated electrons interact with a reflected part of the laser pulse. …”
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1154“…Based on the testing RGBW images that were collected from the Kodak and IMAX datasets, the comprehensive experimental results illustrated that the proposed three-stage demosaicking method achieves substantial quality and perceptual effect improvement relative to the previous method by Hamilton and Compton and the two state-of-the-art methods, Kwan et al.’s pansharpening-based method, and Kwan and Chou’s deep learning-based method.…”
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1155“…We here sequenced 13 plastomes of Actaea purpurea (P.K. Hsiao) J. Compton, and its closest relatives, and conducted a systematic survey of positive selection in their plastid genes using the McDonald‐Kreitman test and codon‐based methods using maximum likelihood to estimate the ratio of nonsynonymous to synonymous substitutions (ω) across a phylogeny. …”
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1156por Spiers, Kathryn M, Brueckner, Dennis, Garrevoet, Jan, Falkenberg, Gerald, van der Ent, Antony“…The method can be used on frozen-hydrated samples, as such preserving “life-like” conditions. Absorption and Compton scattering maps obtained from synchrotron XFM–CT offer exquisite detail on structural features that can be used in concert with elemental data to interpret the results. …”
Publicado 2022
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1157por Babiano-Suárez, V., Lerendegui-Marcoa, J., Balibrea-Correa, J., Caballero, L., Calvo, D., Ladarescu, I., Real, D., Domingo-Pardo, C., Calviño, F., Casanovas, A., Tarifeño-Saldivia, A., Alcayne, V., Guerrero, C., Millán-Callado, M.A., Rodríguez-González, M.T., Barbagallo, M., Aberle, O., Amaducci, S., Andrzejewski, J., Audouin, L., Bacak, M., Bennett, S., Berthoumieux, E., Billowes, J., Bosnar, D., Brown, A., Busso, M., Caamaño, M., Calviani, M., Cano-Ott, D., Cerutti, F., Chiaveri, E., Colonna, N., Cortés, G., Cortés-Giraldo, M.A., Cosentino, L., Cristallo, S., Damone, L.A., Davies, P.J., Diakaki, M., Dietz, M., Dressler, R., Ducasse, Q., Dupont, E., Durán, I., Eleme, Z., Fernández-Domínguez, B., ez-Domínguez, Ferrari, A., Finocchiaro, P., Furman, V., Göbel, K., Garg, R., Gawlik, A., Gilardoni, S., Gonçalves, I.F., González-Romero, E., Gunsing, F., Harada, H., Heinitz, S., Heyse, J., Jenkins, D.G., Junghans, A., Käppeler, F., Kadi, Y., Kimura, A., Knapova, I., Kokkoris, M., Kopatch, Y., Krtička, M., Kurtulgil, D., Lederer-Woods, C., Leeb, H., Lonsdale, S.J., Macina, D., Manna, A., Martinez, T., Masi, A., Massimi, C., Mastinu, P., Mastromarco, M., Maugeri, E.A., Mazzone, A., Mendoza, E., Mengoni, A., Michalopoulou, V., Milazzo, P.M., Mingrone, F., Moreno-Soto, J., Musumarra, A., Negret, A., Ogállar, F., Oprea, A., Patronis, N., Pavlik, A., Perkowski, J., Persanti, L., Petrone, C., Pirovano, E., Porras, I., Praena, J., Quesada, J.M., Ramos-Doval, D., Rauscher, T., Reifarth, R., Rochman, D., Rubbia, C., Sabaté-Gilarte, M., Saxena, A., Schillebeeckx, P., Schumann, D., Sekhar, A., Smith, A.G., Sosnin, N.V., Sprung, P., Stamatopoulos, A., Tagliente, G., Tain, J.L., Tassan-Got, L., Thomas, Th., Torres-Sánchez, P., Tsinganis, A., Ulrich, J., Urlass, S., Valenta, S., Vannini, G., Variale, V., Vaz, P., Ventura, A., Vescovi, D., Vlachoudis, V., Vlastou, R., Wallner, A., Woods, P.J., Wright, T., Zugec, P.“…i-TED is an innovative detection system which exploits Compton imaging techniques to achieve a superior signal-to-background ratio in ($n,\gamma $) cross-section measurements using time-of-flight technique. …”
Publicado 2020
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1158por Clinthorne, Neal, Cochran, Eric, Chesi, Enrico, Grkovski, Milan, Grošičar, Borut, Honscheid, Klaus, Huh, Sam S, Kagan, Harris, Lacasta, Carlos, Brzezinski, Karol, Linhart, Vladimir, Mikuž, Marko, Smith, D Shane, Stankova, Vera, Studen, Andrej, Weilhammer, Peter, Žontar, Dejan“…Even though virtually all interactions of 511 keV annihilation photons in silicon are Compton-scatter, both high spatial resolution and reasonable sensitivity appears possible. …”
Publicado 2012
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1159por Staufer, Theresa, Körnig, Christian, Liu, Beibei, Liu, Yang, Lanzloth, Clarissa, Schmutzler, Oliver, Bedke, Tanja, Machicote, Andres, Parak, Wolfgang J., Feliu, Neus, Bosurgi, Lidia, Huber, Samuel, Grüner, Florian“…The key for this achievement is a detailed study of the spectral background contribution from multiple Compton scattering in a mouse-scaled object when this is scanned with a monochromatic pencil X-ray beam from a synchrotron. …”
Publicado 2023
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1160“…This also leads to momentum and energy being represented as components of a multivector and we give a new efficient derivation of Compton’s scattering formula, and a simple formulation of Dirac’s and Maxwell’s equations. …”
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