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    Numerical simulation of x-ray luminescence optical tomography for small-animal imaging

    Li, Changqing, Martínez-Dávalos, Arnulfo, Cherry, Simon R
    eScholarship (California Digital Library)
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    Title: Numerical simulation of x-ray luminescence optical tomography for small-animal imaging
    Author: Li, Changqing; Martínez-Dávalos, Arnulfo; Cherry, Simon R
    Subject: Tomography ; X-Ray Computed ; Tomography ; Optical ; Phantoms ; Imaging ; Algorithms ; Computer Simulation ; Image Processing ; Computer-Assisted ; Reconstruction Algorithm ; Small Animal Imaging ; Tomographic Imaging ; X-Ray Luminescence ; Tomography ; X-Ray Computed ; Optical ; Phantoms ; Imaging ; Image Processing
    Description: X-ray luminescence optical tomography (XLOT) is an emerging hybrid imaging modality in which x-ray excitable particles (phosphor particles) emit optical photons when stimulated with a collimated x-ray beam. XLOT can potentially combine the high sensitivity of optical imaging with the high spatial resolution of x-ray imaging. For reconstruction of XLOT data, we compared two reconstruction algorithms, conventional filtered backprojection (FBP) and a new algorithm, x-ray luminescence optical tomography with excitation priors (XLOT-EP), in which photon propagation is modeled with the diffusion equation and the x-ray beam positions are used as reconstruction priors. Numerical simulations based on dose calculations were used to validate the proposed XLOT imaging system and the reconstruction algorithms. Simulation results showed nanoparticle concentrations reconstructed with XLOT-EP are much less dependent on scan depth than those obtained with FBP. Measurements at just two orthogonal...

    • Several versions

    Two Flat-Backed Polydesmidan Millipedes from the Miocene Chiapas-Amber Lagerstätte, Mexico

    Riquelme, Francisco, Hernández-Patricio, Miguel, Martínez-Dávalos, Arnulfo, Rodríguez-Villafuerte, Mercedes, Montejo-Cruz, Maira, Alvarado-Ortega, Jesús, Ruvalcaba-Sil, José L, Zúñiga-Mijangos, Luis
    PLoS ONE, 2014, Vol.9(8) [Peer Reviewed Journal]

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    Numerical simulation of x-ray luminescence optical tomography for small-animal imaging

    Li, Changqing, Martínez-Dávalos, Arnulfo, Cherry, Simon R
    Journal of biomedical optics, April 2014, Vol.19(4), pp.046002 [Peer Reviewed Journal]
    MEDLINE/PubMed (U.S. National Library of Medicine)
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    Title: Numerical simulation of x-ray luminescence optical tomography for small-animal imaging
    Author: Li, Changqing; Martínez-Dávalos, Arnulfo; Cherry, Simon R
    Subject: Image Processing, Computer-Assisted -- Methods ; Tomography, Optical -- Methods
    Description: X-ray luminescence optical tomography (XLOT) is an emerging hybrid imaging modality in which x-ray excitable particles (phosphor particles) emit optical photons when stimulated with a collimated x-ray beam. XLOT can potentially combine the high sensitivity of optical imaging with the high spatial resolution of x-ray imaging. For reconstruction of XLOT data, we compared two reconstruction algorithms, conventional filtered backprojection (FBP) and a new algorithm, x-ray luminescence optical tomography with excitation priors (XLOT-EP), in which photon propagation is modeled with the diffusion equation and the x-ray beam positions are used as reconstruction priors. Numerical simulations based on dose calculations were used to validate the proposed XLOT imaging system and the reconstruction algorithms. Simulation results showed nanoparticle concentrations reconstructed with XLOT-EP are much less dependent on scan depth than those obtained with FBP. Measurements at just two orthogonal projections...
    Is part of: Journal of biomedical optics, April 2014, Vol.19(4), pp.046002
    Identifier: 1560-2281 (E-ISSN); 24695846 Version (PMID); 10.1117/1.JBO.19.4.046002 (DOI)

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    Studies of positron range in tissue-equivalent materials

    Alva-Sánchez, Héctor, Quintana-Bautista, Christian, Martínez-Dávalos, Arnulfo, Ávila-Rodríguez, Miguel Ángel, Rodríguez-Villafuerte, Mercedes
    Medical Physics: Fourteenth Mexican Symposium on Medical Physics, México City, México (18–21 March 2016):, AIP Conference Proceedings, 17 June 2016, Vol.1747(1) [Peer Reviewed Journal]
    © 2016 Author(s) (AIP)
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    Title: Studies of positron range in tissue-equivalent materials
    Author: Alva-Sánchez, Héctor; Quintana-Bautista, Christian; Martínez-Dávalos, Arnulfo; Ávila-Rodríguez, Miguel Ángel; Rodríguez-Villafuerte, Mercedes
    Subject: Radiobiology, Radiation Imaging And Nuclear Medicine Physics
    Description: In this work microPET scans and Monte Carlo simulations of line sources containing 18 F, 13 N and 68 Ga were performed to study the effect that positron range has over the spatial resolution of PET images. The experimental studies were carried out using a microPET Focus 120 scanner with a reported axial spatial resolution of 1.44 mm. Line sources consisted of thin capillary tubes filled with a water solution containing a known activity concentration of the radionuclides and placed inside six different tissue equivalent cylindrical phantoms. Image reconstruction was performed using filtered backprojection and from the axial images, radial profiles were extracted to compute the spatial resolution for all radionuclide-material combinations. One dimensional line sources inside cylinders were simulated using PENELOPE to obtain the line spread functions (LSFs) of all the radionuclide-material combinations. Our results indicate that spatial resolution depends strongly on the radionuclide (positron energy) and the density of the tissue in which they travel before annihilation.
    Is part of: Medical Physics: Fourteenth Mexican Symposium on Medical Physics, México City, México (18–21 March 2016): - AIP Conference Proceedings, 17 June 2016, Vol.1747(1)
    Identifier: 978-0-7354-1404-4 (ISBN); 0094-243X (ISSN); 1551-7616 (E-ISSN); 10.1063/1.4954131 (DOI)

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    Numerical evaluation of a positron emission mammography scanner using GATE

    Torres-Urzúa, Luis Fernando, Alva-Sánchez, Héctor, Martínez-Dávalos, Arnulfo, Rodríguez-Villafuerte, Mercedes
    Medical Physics: Fourteenth Mexican Symposium on Medical Physics, México City, México (18–21 March 2016):, AIP Conference Proceedings, 17 June 2016, Vol.1747(1) [Peer Reviewed Journal]
    © 2016 Author(s) (AIP)
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    Title: Numerical evaluation of a positron emission mammography scanner using GATE
    Author: Torres-Urzúa, Luis Fernando; Alva-Sánchez, Héctor; Martínez-Dávalos, Arnulfo; Rodríguez-Villafuerte, Mercedes
    Subject: Computational Methods In Medical Applications
    Description: In this work, a Monte Carlo simulation of a positron emission mammography (PEM) prototype under development at the Institute of Physics, UNAM, is presented. The simulated geometry included two parallel detector modules with a 73 mm separation. Each module consisted of 3 detector blocks, each one formed by an array of 38×38 lutetium yttrium orthosilicate crystal elements of 1.96×1.96×10 mm 3 at 2 mm pitch. An energy resolution of 26% for 511 keV photons, a 350-650 keV energy window and a 6 ns coincidence window were assumed. Image reconstruction was performed using focal plane tomography. Spatial resolution was assessed through the point spread function at different positions within the field of view (FOV). In addition, image quality was evaluated following the NEMA NU 4-2008 protocol. Different depth-of-interaction (DOI) assumptions were considered. The best spatial resolution (0.75 mm FWHM) was obtained when depth-of-interaction information was used, deteriorating drastically to 2.21 mm when DOI is unknown. The overall sensitivity of the system was 2.50%.
    Is part of: Medical Physics: Fourteenth Mexican Symposium on Medical Physics, México City, México (18–21 March 2016): - AIP Conference Proceedings, 17 June 2016, Vol.1747(1)
    Identifier: 978-0-7354-1404-4 (ISBN); 0094-243X (ISSN); 1551-7616 (E-ISSN); 10.1063/1.4954140 (DOI)

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    Effective atomic number and electron density calibration with a dual-energy CT technique

    Trujillo-Bastidas, Christian David, García-Garduño, Olivia Amanda, Lárraga-Gutiérrez, José Manuel, Martínez-Dávalos, Arnulfo, Rodríguez-Villafuerte, Mercedes
    Medical Physics: Fourteenth Mexican Symposium on Medical Physics, México City, México (18–21 March 2016):, AIP Conference Proceedings, 17 June 2016, Vol.1747(1) [Peer Reviewed Journal]
    © 2016 Author(s) (AIP)
    Available
    More…
    Title: Effective atomic number and electron density calibration with a dual-energy CT technique
    Author: Trujillo-Bastidas, Christian David; García-Garduño, Olivia Amanda; Lárraga-Gutiérrez, José Manuel; Martínez-Dávalos, Arnulfo; Rodríguez-Villafuerte, Mercedes
    Subject: Radiobiology, Radiation Imaging And Nuclear Medicine Physics
    Description: Monte Carlo (MC) dose calculations in radiotherapy typically use Computed Tomography (CT) images of the patient since they can provide electron density ( ρ e ) and effective atomic number ( Z eff ) information of tissues. An accurate calculation of absorbed dose and appropriate correction for inhomogeneities is partially determined by the Hounsfield Units (HU) dependence on these parameters. In this work HU calibration results are presented in terms of Z eff and ρ e by using tissue-equivalent materials and a dual-energy CT method. We compared calculated values of Z eff and ρ e with the ones provided by the manufacturer. Mean percentage differences (MPD) of 3.2% were observed for Z eff , while for ρ e the average difference was 4.1%. When beam hardening correction was applied, the MPD on Z eff and ρ e extraction were 2.4% and 3.2%, respectively.
    Is part of: Medical Physics: Fourteenth Mexican Symposium on Medical Physics, México City, México (18–21 March 2016): - AIP Conference Proceedings, 17 June 2016, Vol.1747(1)
    Identifier: 978-0-7354-1404-4 (ISBN); 0094-243X (ISSN); 1551-7616 (E-ISSN); 10.1063/1.4954129 (DOI)

    • Several versions

    Radiation transmission, leakage and beam penumbra measurements of a micro‐multileaf collimator using GafChromic EBT film

    García‐Garduño, Olivia Amanda, Celis, Miguel Ángel, Lárraga‐Gutiérrez, José Manuel, Moreno‐Jiménez, Sergio, Martínez‐Dávalos, Arnulfo, Rodríguez‐Villafuerte, Mercedes
    Journal of Applied Clinical Medical Physics, June 2008, Vol.9(3), pp.90-98 [Peer Reviewed Journal]

    • Several versions

    Coincidence energy spectra due to the intrinsic radioactivity of LYSO scintillation crystals

    Enríquez-Mier-Y-Terán, Francisco Eduardo, Ortega-Galindo, Ana Saret, Murrieta-Rodríguez, Tirso, Rodríguez-Villafuerte, Mercedes, Martínez-Dávalos, Arnulfo, Alva-Sánchez, Héctor
    EJNMMI Physics, 2020, Vol.7 [Peer Reviewed Journal]

    • Several versions

    Spatial dose distributions in solid tumors from 186 Re transported by liposomes using HS radiochromic media

    Medina, Luis, Goins, Beth, Rodríguez-Villafuerte, Mercedes, Bao, Ande, Martínez-Davalos, Arnulfo, Awasthi, Vibhudutta, Galván, Olga, Santoyo, Cristina, Phillips, William, Brandan, María-Ester
    European Journal of Nuclear Medicine and Molecular Imaging, 2007, Vol.34(7), pp.1039-1049 [Peer Reviewed Journal]

    • Several versions

    Measurement of prompt J/ ψ and beauty hadron production cross sections at mid-rapidity in pp collisions at $ \sqrt{s}=7 $ TeV

    Abelev, Betty, Adam, Jaroslav, Adamova, Dagmar, Adare, Andrew, Aggarwal, Madan, Rinella, Gianluca, Agocs, Andras, Agostinelli, Andrea, Salazar, Saul, Ahammed, Zubayer, Ahmad, Arshad, Ahmad, Nazeer, Ahn, Sul-Ah, Ahn, Sang, Akindinov, Alexander, Aleksandrov, Dmitry, Alessandro, Bruno, Molina, Jose, Alici, Andrea, Alkin, Anton, Avina, Erick, Alme, Johan, Alt, Torsten, Altini, Valerio, Altinpinar, Sedat, Altsybeev, Igor, Andrei, Cristian, Andronic, Anton, Anguelov, Venelin, Anielski, Jonas, Anson, Christopher, Anticic, Tome, Antinori, Federico, Antonioli, Pietro, Aphecetche, Laurent, Appelshauser, Harald, Arbor, Nicolas, Arcelli, Silvia, Arend, Andreas, Armesto, Nestor, Arnaldi, Roberta, Aronsson, Tomas, Arsene, Ionut, Arslandok, Mesut, Asryan, Andzhey, Augustinus, Andre, Averbeck, Ralf, Awes, Terry, Aysto, Juha, Azmi, Mohd, Bach, Matthias, Badala, Angela, Baek, Yong, Bailhache, Raphaelle, Bala, Renu, Ferroli, Rinaldo, Baldisseri, Alberto, Baldit, Alain, Santos Pedrosa, Fernando, Ban, Jaroslav, Baral, Rama, Barbera, Roberto, Barile, Francesco, Barnafoldi, Gergely, Barnby, Lee, Barret, Valerie, Bartke, Jerzy, Basile, Maurizio, Bastid, Nicole, Basu, Sumit, Bathen, Bastian, Batigne, Guillaume, Batyunya, Boris, Baumann, Christoph, Bearden, Ian, Beck, Hans, Behera, Nirbhay, Belikov, Iouri, Bellini, Francesca, Bellwied, Rene, Belmont-Moreno, Ernesto, Bencedi, Gyula, Beole, Stefania, Berceanu, Ionela, Bercuci, Alexandru, Berdnikov, Yaroslav, Berenyi, Daniel, Bergognon, Anais, Berzano, Dario, Betev, Latchezar, Bhasin, Anju, Bhati, Ashok, Bhom, Jihyun, Bianchi, Livio, Bianchi, Nicola, Bianchin, Chiara, Bielcik, Jaroslav, Bielcikova, Jana, Bilandzic, Ante, Bjelogrlic, Sandro, Blanco, F., Blanco, Francesco, Blau, Dmitry, Blume, Christoph, Boccioli, Marco, Bock, Nicolas, Boettger, Stefan, Bogdanov, Alexey, Boggild, Hans, Bogolyubsky, Mikhail, Boldizsar, Laszlo, Bombara, Marek, Book, Julian, Borel, Herve, Borissov, Alexander, Bose, Suvendu, Bossu, Francesco, Botje, Michiel, Boyer, Bruno, Braidot, Ermes, Braun-Munzinger, Peter, Bregant, Marco, Breitner, Timo, Browning, Tyler, Broz, Michal, Brun, Rene, Bruna, Elena, Bruno, Giuseppe, Budnikov, Dmitry, Buesching, Henner, Bufalino, Stefania, Bugaiev, Kyrylo, Busch, Oliver, Buthelezi, Edith, Orduna, Diego, Caffarri, Davide, Cai, Xu, Caines, Helen, Villar, Ernesto, Camerini, Paolo, Roman, Veronica, Romeo, Giovanni, Carena, Francesco, Carena, Wisla, Filho, Nelson, Carminati, Federico, Montoya, Camilo, Diaz, Amaya, Castellanos, Javier, Hernandez, Juan, Casula, Ester, Catanescu, Vasile, Cavicchioli, Costanza, Sanchez, Cesar, Cepila, Jan, Cerello, Piergiorgio, Chang, Beomsu, Chapeland, Sylvain, Charvet, Jean-Luc, Chattopadhyay, Subhasis, Chattopadhyay, Sukalyan, Chawla, Isha, Cherney, Michael, Cheshkov, Cvetan, Cheynis, Brigitte, Barroso, Vasco, Chinellato, David, Chochula, Peter, Chojnacki, Marek, Choudhury, Subikash, Christakoglou, Panagiotis, Christensen, Christian, Christiansen, Peter, Chujo, Tatsuya, Chung, Suh-Urk, Cicalo, Corrado, Cifarelli, Luisa, Cindolo, Federico, Cleymans, Jean, Coccetti, Fabrizio, Colamaria, Fabio, Colella, Domenico, Balbastre, Gustavo, Valle, Zaida, Constantin, Paul, Contin, Giacomo, Contreras, Jesus, Cormier, Thomas, Morales, Yasser, Cortese, Pietro, Maldonado, Ismael, Cosentino, Mauro, Costa, Filippo, Cotallo, Manuel, Crescio, Elisabetta, Crochet, Philippe, Alaniz, Emilia, Cuautle, Eleazar, Cunqueiro, Leticia, Dainese, Andrea, Dalsgaard, Hans, Danu, Andrea, Das, Debasish, Das, Indranil, Das, Kushal, Dash, Sadhana, Dash, Ajay, De, Sudipan, Barros, Gabriel, Caro, Annalisa, Cataldo, Giacinto, Cuveland, Jan, Falco, Alessandro, Gruttola, Daniele, Delagrange, Hugues, Deloff, Andrzej, Demanov, Vyacheslav, Marco, Nora, Denes, Ervin, Pasquale, Salvatore, Deppman, Airton, D’Erasmo, Ginevra, Rooij, Raoul, Corchero, Miguel, Bari, Domenico, Giglio, Carmelo, Dietel, Thomas, Liberto, Sergio, Mauro, Antonio, Nezza, Pasquale, Divia, Roberto, Djuvsland, Oeystein, Dobrin, Alexandru, Dobrowolski, Tadeusz, Dominguez, Isabel, Donigus, Benjamin, Dordic, Olja, Driga, Olga, Dubey, Anand, Ducroux, Laurent, Dupieux, Pascal, Majumdar, Mihir, Majumdar, A., Elia, Domenico, Emschermann, David, Engel, Heiko, Erdal, Hege, Espagnon, Bruno, Estienne, Magali, Esumi, Shinichi, Evans, David, Eyyubova, Gyulnara, Fabris, Daniela, Faivre, Julien, Falchieri, Davide, Fantoni, Alessandra, Fasel, Markus, Fearick, Roger, Fedunov, Anatoly, Fehlker, Dominik, Feldkamp, Linus, Felea, Daniel, Fenton-Olsen, Bo, Feofilov, Grigory, Tellez, Arturo, Ferretti, Alessandro, Ferretti, Roberta, Figiel, Jan, Figueredo, Marcel, Filchagin, Sergey, Finogeev, Dmitry, Fionda, Fiorella, Fiore, Enrichetta, Floris, Michele, Foertsch, Siegfried, Foka, Panagiota, Fokin, Sergey, Fragiacomo, Enrico, Frankenfeld, Ulrich, Fuchs, Ulrich, Furget, Christophe, Girard, Mario, Gaardhoje, Jens, Gagliardi, Martino, Gago, Alberto, Gallio, Mauro, Gangadharan, Dhevan, Ganoti, Paraskevi, Garabatos, Jose, Garcia-Solis, Edmundo, Garishvili, Irakli, Gerhard, Jochen, Germain, Marie, Geuna, Claudio, Gheata, Andrei, Gheata, Mihaela, Ghidini, Bruno, Ghosh, Premomoy, Gianotti, Paola, Girard, Martin, Giubellino, Paolo, Gladysz-Dziadus, Ewa, Glassel, Peter, Gomez, Ramon, Gonschior, Alexey, Ferreiro, Elena, Gonzalez-Trueba, Laura, Gonzalez-Zamora, Pedro, Gorbunov, Sergey, Goswami, Ankita, Gotovac, Sven, Grabski, Varlen, Graczykowski, Lukasz, Grajcarek, Robert, Grelli, Alessandro, Grigoras, Costin, Grigoras, Alina, Grigoriev, Vladislav, Grigoryan, Ara, Grigoryan, Smbat, Grinyov, Boris, Grion, Nevio, Gros, Philippe, Grosse-Oetringhaus, Jan, Grossiord, Jean-Yves, Grosso, Raffaele, Guber, Fedor, Guernane, Rachid, Gutierrez, Cesar, Guerzoni, Barbara, Guilbaud, Maxime, Gulbrandsen, Kristjan, Gunji, Taku, Gupta, Anik, Gupta, Ramni, Gutbrod, Hans, Haaland, Oystein, Hadjidakis, Cynthia, Haiduc, Maria, Hamagaki, Hideki, Hamar, Gergoe, Han, Byounghee, Hanratty, Luke, Hansen, Alexander, Harmanova, Zuzana, Harris, John, Hartig, Matthias, Hasegan, Dumitru, Hatzifotiadou, Despoina, Hayrapetyan, Arsen, Heckel, Stefan, Heide, Markus, Helstrup, Haavard, Herghelegiu, Andrei, Corral, Gerardo, Herrmann, Norbert, Hess, Benjamin, Hetland, Kristin, Hicks, Bernard, Hille, Per, Hippolyte, Boris, Horaguchi, Takuma, Hori, Yasuto, Hristov, Peter, Hrivnacova, Ivana, Huang, Meidana, Humanic, Thomas, Hwang, Dae, Ichou, Raphaelle, Ilkaev, Radiy, Ilkiv, Iryna, Inaba, Motoi, Incani, Elisa, Innocenti, Gian, Innocenti, Pier, Ippolitov, Mikhail, Irfan, Muhammad, Ivan, Cristian, Ivanov, Vladimir, Ivanov, Marian, Ivanov, Andrey, Ivanytskyi, Oleksii, Jacholkowski, Adam, Jacobs, Peter, Jang, Haeng, Jangal, Swensy, Janik, Malgorzata, Janik, Rudolf, Jayarathna, Sandun, Jena, Satyajit, Jha, Deeptanshu, Bustamante, Raul, Jirden, Lennart, Jones, Peter, Jung, Hyung, Jusko, Anton, Kaidalov, Alexei, Kakoyan, Vanik, Kalcher, Sebastian, Kalinak, Peter, Kalliokoski, Tuomo, Kalweit, Alexander, Kanaki, Kalliopi, Kang, Ju, Kaplin, Vladimir, Uysal, Ayben, Karavichev, Oleg, Karavicheva, Tatiana, Karpechev, Evgeny, Kazantsev, Andrey, Kebschull, Udo, Keidel, Ralf, Khan, Palash, Khan, Mohisin, Khan, Shuaib, Khanzadeev, Alexei, Kharlov, Yury, Kileng, Bjarte, Kim, Do, Kim, Mimae, Kim, Minwoo, Kim, Seon, Kim, Dong, Kim, Se, Kim, Jonghyun, Kim, Jin, Kim, Beomkyu, Kim, Taesoo, Kirsch, Stefan, Kisel, Ivan, Kiselev, Sergey, Kisiel, Adam, Klay, Jennifer, Klein, Jochen, Klein-Bosing, Christian, Kliemant, Michael, Kluge, Alexander, Knichel, Michael, Knospe, Anders, Koch, Kathrin, Kohler, Markus, Kolojvari, Anatoly, Kondratiev, Valery, Kondratyeva, Natalia, Konevskih, Artem, Korneev, Andrey, Kour, Ravjeet, Kowalski, Marek, Kox, Serge, Meethaleveedu, Greeshma, Kral, Jiri, Kralik, Ivan, Kramer, Frederick, Kraus, Ingrid, Krawutschke, Tobias, Krelina, Michal, Kretz, Matthias, Krivda, Marian, Krizek, Filip, Krus, Miroslav, Kryshen, Evgeny, Krzewicki, Mikolaj, Kucheriaev, Yury, Kuhn, Christian, Kuijer, Paul, Kulakov, Igor, Kumar, Jitendra, Kurashvili, Podist, Kurepin, A., Kurepin, A., Kuryakin, Alexey, Kushpil, Vasily, Kushpil, Svetlana, Kvaerno, Henning, Kweon, Min, Kwon, Youngil, Guevara, Pedro, Lakomov, Igor, Langoy, Rune, Pointe, Sarah, Lara, Camilo, Lardeux, Antoine, Rocca, Paola, Lazzeroni, Cristina, Lea, Ramona, Bornec, Yves, Lechman, Mateusz, Lee, Sung, Lee, Ki, Lee, Graham, Lefevre, Frederic, Lehnert, Joerg, Leistam, Lars, Lenhardt, Matthieu, Lenti, Vito, Leon, Hermes, Leoncino, Marco, Monzon, Ildefonso, Vargas, Hermes, Levai, Peter, Lien, Jorgen, Lietava, Roman, Lindal, Svein, Lindenstruth, Volker, Lippmann, Christian, Lisa, Michael, Liu, Lijiao, Loenne, Per-Ivar, Loggins, Vera, Loginov, Vitaly, Lohn, Stefan, Lohner, Daniel, Loizides, Constantinos, Loo, Kai, Lopez, Xavier, Torres, Ernesto, Lovhoiden, Gunnar, Lu, Xianguo, Luettig, Philipp, Lunardon, Marcello, Luo, Jiebin, Luparello, Grazia, Luquin, Lionel, Luzzi, Cinzia, Ma, Rongrong, Ma, Ke, Madagodahettige-Don, Dilan, Maevskaya, Alla, Mager, Magnus, Mahapatra, Durga, Maire, Antonin, Malaev, Mikhail, Cervantes, Ivonne, Malinina, Ludmila, Mal’Kevich, Dmitry, Malzacher, Peter, Mamonov, Alexander, Manceau, Loic, Mangotra, Lalit, Manko, Vladislav, Manso, Franck, Manzari, Vito, Mao, Yaxian, Marchisone, Massimiliano, Mares, Jiri, Margagliotti, Giacomo, Margotti, Anselmo, Marin, Ana, Tobon, Cesar, Markert, Christina, Martashvili, Irakli, Martinengo, Paolo, Martinez, Mario, Davalos, Arnulfo, Garcia, Gines, Martynov, Yevgen, Mas,...
    Journal of High Energy Physics, 2012, Vol.2012(11), pp.1-31 [Peer Reviewed Journal]