Your search keyword '"Barucca, G."' showing total 451 results

1. Inorganic UV filter-based sunscreens labelled as eco-friendly threaten sea urchin populations

Author

Marcellini, F., Varrella, S., Ghilardi, M., Barucca, G., Giorgetti, A., Danovaro, R., and Corinaldesi, C.

Published

2024

2. PANDA Phase One

Author

Barucca, G., Davì, F., Lancioni, G., Mengucci, P., Montalto, L., Natali, P. P., Paone, N., Rinaldi, D., Scalise, L., Krusche, B., Steinacher, M., Liu, Z., Liu, C., Liu, B., Shen, X., Sun, S., Zhao, G., Zhao, J., Albrecht, M., Alkakhi, W., Bökelmann, S., Coen, S., Feldbauer, F., Fink, M., Frech, J., Freudenreich, V., Fritsch, M., Grochowski, J., Hagdorn, R., Heinsius, F. H., Held, T., Holtmann, T., Keshk, I., Koch, H., Kopf, B., Kümmel, M., Küßner, M., Li, J., Linzen, L., Maldaner, S., Oppotsch, J., Pankonin, S., Pelizäus, M., Pflüger, S., Reher, J., Reicherz, G., Schnier, C., Steinke, M., Triffterer, T., Wenzel, C., Wiedner, U., Denizli, H., Er, N., Keskin, U., Yerlikaya, S., Yilmaz, A., Beck, R., Chauhan, V., Hammann, C., Hartmann, J., Ketzer, B., Müllers, J., Salisbury, B., Schmidt, C., Thoma, U., Urban, M., Bianconi, A., Bragadireanu, M., Pantea, D., Rimjaem, S., Domagala, M., Filo, G., Lisowski, E., Lisowski, F., Michałek, M., Poznański, P., Płażek, J., Korcyl, K., Lebiedowicz, P., Pysz, K., Schäfer, W., Szczurek, A., Firlej, M., Fiutowski, T., Idzik, M., Moron, J., Swientek, K., Terlecki, P., Korcyl, G., Lalik, R., Malige, A., Moskal, P., Nowakowski, K., Przygoda, W., Rathod, N., Salabura, P., Smyrski, J., Augustin, I., Böhm, R., Lehmann, I., Schmitt, L., Varentsov, V., Al-Turany, M., Belias, A., Deppe, H., Dzhygadlo, R., Flemming, H., Gerhardt, A., Götzen, K., Heinz, A., Jiang, P., Karabowicz, R., Koch, S., Kurilla, U., Lehmann, D., Lühning, J., Lynen, U., Orth, H., Peters, K., Ritman, J., Schepers, G., Schmidt, C. J., Schwarz, C., Schwiening, J., Täschner, A., Traxler, M., Voss, B., Wieczorek, P., Abazov, V., Alexeev, G., Barabanov, M. Yu., Dodokhov, V. Kh., Efremov, A., Fechtchenko, A., Galoyan, A., Golovanov, G., Koshurnikov, E. K., Lobanov, Y. Yu., Olshevskiy, A. G., Piskun, A. A., Samartsev, A., Shimanski, S., Skachkov, N. B., Skachkova, A. N., Strokovsky, E. A., Tokmenin, V., Uzhinsky, V., Verkheev, A., Vodopianov, A., Zhuravlev, N. I., Watts, D., Böhm, M., Eyrich, W., Lehmann, A., Miehling, D., Pfaffinger, M., Seth, K., Xiao, T., Ali, A., Hamdi, A., Himmelreich, M., Krebs, M., Nakhoul, S., Nerling, F., Gianotti, P., Lucherini, V., Bracco, G., Bodenschatz, S., Brinkmann, K. T., Brück, L., Diehl, S., Dormenev, V., Düren, M., Erlen, T., Hahn, C., Hayrapetyan, A., Hofmann, J., Kegel, S., Khalid, F., Köseoglu, I., Kripko, A., Kühn, W., Metag, V., Moritz, M., Nanova, M., Novotny, R., Orsich, P., Pereira-de-Lira, J., Sachs, M., Schmidt, M., Schubert, R., Strickert, M., Wasem, T., Zaunick, H. G., Tomasi-Gustafsson, E., Glazier, D., Ireland, D., Seitz, B., Kappert, R., Kavatsyuk, M., Loehner, H., Messchendorp, J., Rodin, V., Kalita, K., Huang, G., Liu, D., Peng, H., Qi, H., Sun, Y., Zhou, X., Kunze, M., Azizi, K., Olgun, A. T., Tavukoglu, Z., Derichs, A., Dosdall, R., Esmail, W., Gillitzer, A., Goldenbaum, F., Grunwald, D., Jokhovets, L., Kannika, J., Kulessa, P., Orfanitski, S., Perez-Andrade, G., Prasuhn, D., Prencipe, E., Pütz, J., Rosenthal, E., Schadmand, S., Schmitz, R., Scholl, A., Sefzick, T., Serdyuk, V., Stockmanns, T., Veretennikov, D., Wintz, P., Wüstner, P., Xu, H., Zhou, Y., Cao, X., Hu, Q., Liang, Y., Rigato, V., Isaksson, L., Achenbach, P., Corell, O., Denig, A., Distler, M., Hoek, M., Lauth, W., Leithoff, H. H., Merkel, H., Müller, U., Petersen, J., Pochodzalla, J., Schlimme, S., Sfienti, C., Thiel, M., Bleser, S., Bölting, M., Capozza, L., Dbeyssi, A., Ehret, A., Klasen, R., Kliemt, R., Maas, F., Motzko, C., Noll, O., Piñeiro, D. Rodríguez, Schupp, F., Steinen, M., Wolff, S., Zimmermann, I., Kazlou, D., Korzhik, M., Missevitch, O., Balanutsa, P., Chernetsky, V., Demekhin, A., Dolgolenko, A., Fedorets, P., Gerasimov, A., Golubev, A., Kantsyrev, A., Kirin, D. Y., Kristi, N., Ladygina, E., Luschevskaya, E., Matveev, V. A., Panjushkin, V., Stavinskiy, A. V., Balashoff, A., Boukharov, A., Bukharova, M., Malyshev, O., Vishnevsky, E., Bonaventura, D., Brand, P., Hetz, B., Hüsken, N., Kellers, J., Khoukaz, A., Klostermann, D., Mannweiler, C., Vestrick, S., Bumrungkoh, D., Herold, C., Khosonthongkee, K., Kobdaj, C., Limphirat, A., Manasatitpong, K., Nasawad, T., Pongampai, S., Simantathammakul, T., Srisawad, P., Wongprachanukul, N., Yan, Y., Yu, C., Zhang, X., Zhu, W., Antokhin, E., Barnyakov, A. Yu., Beloborodov, K., Blinov, V. E., Kuyanov, I. A., Pivovarov, S., Pyata, E., Tikhonov, Y., Blinov, A. E., Kononov, S., Kravchenko, E. A., Lattery, M., Boca, G., Duda, D., Finger, M., Finger, Jr., M., Kveton, A., Prochazka, I., Slunecka, M., Volf, M., Jary, V., Korchak, O., Marcisovsky, M., Neue, G., Novy, J., Tomasek, L., Tomasek, M., Virius, M., Vrba, V., Abramov, V., Bukreeva, S., Chernichenko, S., Derevschikov, A., Ferapontov, V., Goncharenko, Y., Levin, A., Maslova, E., Melnik, Y., Meschanin, A., Minaev, N., Mochalov, V., Moiseev, V., Morozov, D., Nogach, L., Poslavskiy, S., Ryazantsev, A., Ryzhikov, S., Semenov, P., Shein, I., Uzunian, A., Vasiliev, A., Yakutin, A., Belostotski, S., Fedotov, G., Izotov, A., Manaenkov, S., Miklukho, O., Cederwall, B., Preston, M., Tegner, P. E., Wölbing, D., Gandhi, K., Rai, A. K., Godre, S., Crede, V., Dobbs, S., Eugenio, P., Bussa, M. P., Spataro, S., Calvo, D., De Remigis, P., Filippi, A., Mazza, G., Wheadon, R., Iazzi, F., Lavagno, A., Akram, A., Calen, H., Andersson, W. Ikegami, Johansson, T., Kupsc, A., Marciniewski, P., Papenbrock, M., Regina, J., Rieger, J., Schönning, K., Wolke, M., Chlopik, A., Kesik, G., Melnychuk, D., Tarasiuk, J., Wojciechowski, M., Wronka, S., Zwieglinski, B., Amsler, C., Bühler, P., Marton, J., Zimmermann, S., Fischer, C. S., Haidenbauer, J., Hanhart, C., Lutz, M. F. M., and Ryan, Sinéad M.

Subjects

High Energy Physics - Experiment, Nuclear Experiment

Abstract

The Facility for Antiproton and Ion Research (FAIR) in Darmstadt, Germany, provides unique possibilities for a new generation of hadron-, nuclear- and atomic physics experiments. The future antiProton ANnihilations at DArmstadt (PANDA or $\overline{\rm P}$ANDA) experiment at FAIR will offer a broad physics programme, covering different aspects of the strong interaction. Understanding the latter in the non-perturbative regime remains one of the greatest challenges in contemporary physics. The antiproton-nucleon interaction studied with PANDA provides crucial tests in this area. Furthermore, the high-intensity, low-energy domain of PANDA allows for searches for physics beyond the Standard Model, e.g. through high precision symmetry tests. This paper takes into account a staged approach for the detector setup and for the delivered luminosity from the accelerator. The available detector setup at the time of the delivery of the first antiproton beams in the HESR storage ring is referred to as the \textit{Phase One} setup. The physics programme that is achievable during Phase One is outlined in this paper., Comment: 35 pages, 15 figures

Published

2021

3. Microwave driven synthesis of narrow bandgap alpha-tin nanoparticles on silicon

Author

Mazzetta, I., Viti, L., Rigoni, F., Quaranta, S., Gasparotto, A., Barucca, G., Palma, F., Riello, P., Cattaruzza, E., Asgari, M., Vitiello, M., and Irrera, F.

Published

2022

4. Exploring the magnetic properties and magnetic coupling in SrFe12O19/Co1-xZnxFe2O4 nanocomposites

Author

Maltoni, P., Sarkar, T., Barucca, G., Varvaro, G., Peddis, D., and Mathieu, R.

Published

2021

5. Novel mixed precursor approach to prepare multiferroic nanocomposites with enhanced interfacial coupling

Author

Kotnana, G., Sayed, F., Joshi, D.C., Barucca, G., Peddis, D., Mathieu, R., and Sarkar, T.

Published

2020

6. LaFeO3-CoFe2O4 bi-magnetic composite thin films prepared using an all-in-one synthesis technique

Author

Sayed, F., Kotnana, G., Barucca, G., Muscas, G., Peddis, D., Mathieu, R., and Sarkar, T.

Published

2020

7. Precipitates formation and evolution in a Co-based alloy produced by powder bed fusion

Author

Santecchia, E., Gatto, A., Bassoli, E., Denti, L., Rutkowski, B., Mengucci, P., and Barucca, G.

Published

2019

8. Optimization of distances measurement by an ultrasonic sensor

Author

Rocchi, A., Santecchia, E., Barucca, G., and Mengucci, P.

Published

2019

9. Laser Powder Bed Fusion: tailoring the microstructure of alloys for biomedical applications

Author

Santecchia, E., Mengucci, P., Gatto, A., Bassoli, E., Denti, L., Rutkowski, B., and Barucca, G.

Published

2019

10. Synthetic antiferromagnets for biomedical and flexible spintronic applications

Author

Hassan, M., primary, Laureti, S., additional, Peddis, D., additional, Gerardino, A.M., additional, Barucca, G., additional, Fagiani, F., additional, Rinaldi, C., additional, Makushko, P., additional, Makarov, D., additional, Schmidt, N., additional, Albrecht, M., additional, and Varvaro, G., additional

Published

2023

11. The potential of ΛΞ- and ΛΞ- studies with PANDA at FAIR

Author

Barucca, G., Davì, F., Lancioni, G., Mengucci, P., Montalto, L., Natali, P. P., Paone, N., Rinaldi, D., Scalise, L., Erni, W., Krusche, B., Steinacher, M., Walford, N., Cao, N., Liu, Z., Liu, C., Liu, B., Shen, X., Sun, S., Tao, J., Xiong, X. A., Zhao, G., Zhao, J., Albrecht, M., Alkakhi, W., Bökelmann, S., Feldbauer, F., Fink, M., Frech, J., Freudenreich, V., Fritsch, M., Hagdorn, R., Heinsius, F. H., Held, T., Holtmann, T., Keshk, I., Koch, H., Kopf, B., Kuhlmann, M., Kümmel, M., Küßner, M., Li, J., Mustafa, A., Pelizäus, M., Pitka, A., Reher, J., Reicherz, G., Richter, M., Schnier, C., Sohl, L., Steinke, M., Triffterer, T., Wenzel, C., Wiedner, U., Denizli, H., Er, N., Beck, R., Hammann, C., Hartmann, J., Ketzer, B., Müllers, J., Rossbach, M., Salisbury, B., Schmidt, C., Thoma, U., Urban, M., Bianconi, A., Bragadireanu, M., Pantea, D., Domagala, M., Filo, G., Lisowski, E., Lisowski, F., Michałek, M., Poznański, P., Płażek, J., Korcyl, K., Kozela, A., Lebiedowicz, P., Pysz, K., Schäfer, W., Szczurek, A., Fiutowski, T., Idzik, M., Swientek, K., Terlecki, P., Korcyl, G., Lalik, R., Malige, A., Moskal, P., Nowakowski, K., Przygoda, W., Rathod, N., Rudy, Z., Salabura, P., Smyrski, J., Augustin, I., Böhm, R., Lehmann, I., Schmitt, L., Varentsov, V., Al-Turany, M., Belias, A., Deppe, H., Dzhygadlo, R., Flemming, H., Gerhardt, A., Götzen, K., Heinz, A., Jiang, P., Karabowicz, R., Koch, S., Kurilla, U., Lehmann, D., Lühning, J., Lynen, U., Orth, H., Peters, K., Rieger, J., Saito, T., Schepers, G., Schmidt, C. J., Schwarz, C., Schwiening, J., Täschner, A., Traxler, M., Voss, B., Wieczorek, P., Abazov, V., Alexeev, G., Arefiev, V. A., Astakhov, V., Barabanov, M. Yu., Batyunya, B. V., Dodokhov, V. Kh., Efremov, A., Fechtchenko, A., Galoyan, A., Golovanov, G., Koshurnikov, E. K., Lobanov, Y. Yu., Olshevskiy, A. G., Piskun, A. A., Samartsev, A., Shimanski, S., Skachkov, N. B., Skachkova, A. N., Strokovsky, E. A., Tokmenin, V., Uzhinsky, V., Verkheev, A., Vodopianov, A., Zhuravlev, N. I., Branford, D., Watts, D., Böhm, M., Eyrich, W., Lehmann, A., Miehling, D., Pfaffinger, M., Quin, N., Robison, L., Seth, K., Xiao, T., Bettoni, D., Ali, A., Hamdi, A., Himmelreich, M., Krebs, M., Nakhoul, S., Nerling, F., Belousov, A., Kisel, I., Kozlov, G., Pugach, M., Zyzak, M., Bianchi, N., Gianotti, P., Lucherini, V., Bracco, G., Bettner, Y., Bodenschatz, S., Brinkmann, K. T., Brück, L., Diehl, S., Dormenev, V., Düren, M., Erlen, T., Föhl, K., Hahn, C., Hayrapetyan, A., Hofmann, J., Kegel, S., Kesselkaul, M., Köseoglu, I., Kripko, A., Kühn, W., Lange, J. S., Metag, V., Moritz, M., Nanova, M., Novotny, R., Orsich, P., Pereira-de-Lira, J., Peter, M., Sachs, M., Schmidt, M., Schubert, R., Stenzel, H., Straube, M., Strickert, M., Thöring, U., Wasem, T., Wohlfahrt, B., Zaunick, H. G., Tomasi-Gustafsson, E., Glazier, D., Ireland, D., Seitz, B., Deepak, P. N., Kulkarni, A., Kappert, R., Kavatsyuk, M., Loehner, H., Messchendorp, J., Rodin, V., Schakel, P., Vejdani, S., Dutta, K., Kalita, K., Huang, G., Liu, D., Peng, H., Qi, H., Sun, Y., Zhou, X., Kunze, M., Azizi, K., Derichs, A., Dosdall, R., Esmail, W., Gillitzer, A., Goldenbaum, F., Grunwald, D., Jokhovets, L., Kannika, J., Kulessa, P., Orfanitski, S., Pérez Andrade, G., Prasuhn, D., Prencipe, E., Pütz, J., Ritman, J., Rosenthal, E., Schadmand, S., Schmitz, R., Scholl, A., Sefzick, T., Serdyuk, V., Stockmanns, T., Veretennikov, D., Wintz, P., Wüstner, P., Xu, H., Zhou, Y., Cao, X., Hu, Q., Li, Z., Li, H., Liang, Y., Ma, X., Rigato, V., Isaksson, L., Achenbach, P., Aycock, A., Corell, O., Denig, A., Distler, M., Hoek, M., Lauth, W., Leithoff, H. H., Liu, Z., Merkel, H., Müller, U., Pochodzalla, J., Schlimme, S., Sfienti, C., Thiel, M., Zambrana, M., Ahmed , S., Bleser, S., Bölting, M., Capozza, L., Dbeyssi, A., Ehret, A., Grasemann, P., Klasen, R., Kliemt, R., Maas, F., Maldaner, S., Morales Morales, C., Motzko, C., Noll, O., Pflüger, S., Rodríguez Piñeiro, D., Schupp, F., Steinen, M., Wolff, S., Zimmermann, I., Fedorov, A., Kazlou, D., Korzhik, M., Missevitch, O., Balashoff, A., Boukharov, A., Malyshev, O., Balanutsa, P., Chernetsky, V., Demekhin, A., Dolgolenko, A., Fedorets, P., Gerasimov, A., Golubev, A., Goryachev, V., Kantsyrev, A., Kirin, D. Y., Kristi, N., Ladygina, E., Luschevskaya, E., Matveev, V. A., Panjushkin, V., Stavinskiy, A. V., Basant, K. N., Kumawat, H., Roy, B., Saxena, A., Yogesh, S., Bonaventura, D., Brand, P., Fritzsch, C., Grieser, S., Hargens, C., Hergemöller, A. K., Hetz, B., Hüsken, N., Kellers, J., Khoukaz, A., Bumrungkoh, D., Herold, C., Khosonthongkee, K., Kobdaj, C., Limphirat, A., Manasatitpong, K., Nasawad, T., Pongampai, S., Simantathammakul, T., Srisawad, P., Wongprachanukul, N., Yan, Y., Yu, C., Zhang, X., Zhu, W., Blinov, A. E., Kononov, S., Kravchenko, E. A., Antokhin, E., Barnyakov, A. Yu., Beloborodov, K., Blinov, V. E., Kuyanov, I. A., Pivovarov, S., Pyata, E., Tikhonov, Y., Kunne, R., Ramstein, B., Hunter, G., Lattery, M., Pace, H., Boca, G., Duda, D., Finger, M., Finger, Jr., M., Kveton, A., Pesek, M., Peskova, M., Prochazka, I., Slunecka, M., Volf, M., Gallus, P., Jary, V., Korchak, O., Marcisovsky, M., Neue, G., Novy, J., Tomasek, L., Tomasek, M., Virius, M., Vrba, V., Abramov, V., Bukreeva, S., Chernichenko, S., Derevschikov, A., Ferapontov, V., Goncharenko, Y., Levin, A., Maslova, E., Melnik, Y., Meschanin, A., Minaev, N., Mochalov, V., Moiseev, V., Morozov, D., Nogach, L., Poslavskiy, S., Ryazantsev, A., Ryzhikov, S., Semenov, P., Shein, I., Uzunian, A., Vasiliev, A., Yakutin, A., Roy, U., Yabsley, B., Belostotski, S., Fedotov, G., Gavrilov, G., Izotov, A., Manaenkov, S., Miklukho, O., Zhdanov, A., Atac, A., Bäck, T., Cederwall, B., Makonyi, K., Preston, M., Tegner, P. E., Wölbing, D., Gandhi, K., Rai, A. K., Godre, S., Crede, V., Dobbs, S., Eugenio, P., Lersch, D., Calvo, D., De Remigis, P., Filippi, A., Mazza, G., Rivetti, A., Wheadon, R., Bussa, M. P., Spataro, S., Iazzi, F., Lavagno, A., Martin, A., Akram, A., Calen, H., Ikegami Andersson, W., Johansson, T., Kupsc, A., Marciniewski, P., Papenbrock, M., Regina, J., Schönning, K., Wolke, M., Diaz, J., Pothodi Chackara, V., Chlopik, A., Kesik, G., Melnychuk, D., Tarasiuk, J., Wojciechowski, M., Wronka, S., Zwieglinski, B., Amsler, C., Bühler, P., Kratochwil, N., Marton, J., Nalti, W., Steinschaden, D., Widmann, E., Zimmermann, S., and Zmeskal, J.

Published

2021

12. Study of excited ΞP¯ baryons with the ΞP¯ANDA detector

Author

Barucca, G., Davì, F., Lancioni, G., Mengucci, P., Montalto, L., Natali, P. P., Paone, N., Rinaldi, D., Scalise, L., Krusche, B., Steinacher, M., Liu, Z., Liu, C., Liu, B., Shen, X., Sun, S., Zhao, G., Zhao, J., Albrecht, M., Alkakhi, W., Bökelmann, S., Coen, S., Feldbauer, F., Fink, M., Frech, J., Freudenreich, V., Fritsch, M., Grochowski, J., Hagdorn, R., Heinsius, F. H., Held, T., Holtmann, T., Keshk, I., Koch, H., Kopf, B., Kümmel, M., Küßner, M., Li, J., Linzen, L., Maldaner, S., Oppotsch, J., Pankonin, S., Pelizä, M., Pflüger, S., Reher, J., Reicherz, G., Schnier, C., Steinke, M., Triffterer, T., Wenzel, C., Wiedner, U., Denizli, H., Er, N., Keskin, U., Yerlikaya, S., Yilmaz, A., Beck, R., Chauhan, V., Hammann, C., Hartmann, J., Ketzer, B., Müllers, J., Salisbury, B., Schmidt, C., Thoma, U., Urban, M., Bianconi, A., Bragadireanu, M., Pantea, D., Domagala, M., Filo, G., Lisowski, E., Lisowski, F., Michałek, M., Poznański, P., Płażek, J., Korcyl, K., Lebiedowicz, P., Pysz, K., Schäfer, W., Szczurek, A., Firlej, M., Fiutowski, T., Idzik, M., Moron, J., Swientek, K., Terlecki, P., Korcyl, G., Lalik, R., Malige, A., Moskal, P., Nowakowski, K., Przygoda, W., Rathod, N., Salabura, P., Smyrski, J., Augustin, I., Böhm, R., Lehmann, I., Schmitt, L., Varentsov, V., Al-Turany, M., Belias, A., Deppe, H., Dzhygadlo, R., Flemming, H., Gerhardt, A., Götzen, K., Heinz, A., Jiang, P., Karabowicz, R., Koch, S., Kurilla, U., Lehmann, D., Lühning, J., Lynen, U., Orth, H., Peters, K., Schepers, G., Schmidt, C. J., Schwarz, C., Schwiening, J., Täschner, A., Traxler, M., Voss, B., Wieczorek, P., Abazov, V., Alexeev, G., Barabanov, M. Yu., Dodokhov, V. Kh., Efremov, A., Fechtchenko, A., Galoyan, A., Golovanov, G., Koshurnikov, E. K., Lobanov, Y. Yu., Olshevskiy, A. G., Piskun, A. A., Samartsev, A., Shimanski, S., Skachkov, N. B., Skachkova, A. N., Strokovsky, E. A., Tokmenin, V., Uzhinsky, V., Verkheev, A., Vodopianov, A., Zhuravlev, N. I., Watts, D., Böhm, M., Eyrich, W., Lehmann, A., Miehling, D., Pfaffinger, M., Seth, K., Xiao, T., Ali, A., Hamdi, A., Himmelreich, M., Krebs, M., Nakhoul, S., Nerling, F., Gianotti, P., Lucherini, V., Bracco, G., Bodenschatz, S., Brinkmann, K. T., Brück, L., Diehl, S., Dormenev, V., Düren, M., Erlen, T., Hahn, C., Hayrapetyan, A., Hofmann, J., Kegel, S., Khalid, F., Köseoglu, I., Kripko, A., Kühn, W., Metag, V., Moritz, M., Nanova, M., Novotny, R., Orsich, P., Pereira-de-Lira, J., Sachs, M., Schmidt, M., Schubert, R., Strickert, M., Wasem, T., Zaunick, H. G., Tomasi-Gustafsson, E., Glazier, D., Ireland, D., Seitz, B., Kappert, R., Kavatsyuk, M., Loehner, H., Messchendorp, J., Rodin, V., Kalita, K., Huang, G., Liu, D., Peng, H., Qi, H., Sun, Y., Zhou, X., Kunze, M., Azizi, K., Olgun, A. T., Tavukoglu, Z., Derichs, A., Dosdall, R., Esmail, W., Gillitzer, A., Goldenbaum, F., Grunwald, D., Jokhovets, L., Kannika, J., Kulessa, P., Orfanitski, S., Pérez-Andrade, G., Prasuhn, D., Prencipe, E., Pütz, J., Ritman, J., Rosenthal, E., Schadmand, S., Schmitz, R., Scholl, A., Sefzick, T., Serdyuk, V., Stockmanns, T., Veretennikov, D., Wintz, P., Wüstner, P., Xu, H., Zhou, Y., Cao, X., Hu, Q., Liang, Y., Rigato, V., Isaksson, L., Achenbach, P., Corell, O., Denig, A., Distler, M., Hoek, M., Lauth, W., Leithoff, H. H., Merkel, H., Müller, U., Petersen, J., Pochodzalla, J., Schlimme, S., Sfienti, C., Thiel, M., Bleser, S., Bölting, M., Capozza, L., Dbeyssi, A., Ehret, A., Klasen, R., Kliemt, R., Maas, F., Motzko, C., Noll, O., Piñeiro, D. Rodríguez, Schupp, F., Steinen, M., Wolff, S., Zimmermann, I., Kazlou, D., Korzhik, M., Missevitch, O., Balanutsa, P., Chernetsky, V., Demekhin, A., Dolgolenko, A., Fedorets, P., Gerasimov, A., Golubev, A., Kantsyrev, A., Kirin, D. Y., Kristi, N., Ladygina, E., Luschevskaya, E., Matveev, V. A., Panjushkin, V., Stavinskiy, A. V., Balashoff, A., Boukharov, A., Bukharova, M., Malyshev, O., Vishnevsky, E., Bonaventura, D., Brand, P., Hetz, B., Hüsken, N., Kellers, J., Khoukaz, A., Klostermann, D., Mannweiler, C., Vestrick, S., Bumrungkoh, D., Herold, C., Khosonthongkee, K., Kobdaj, C., Limphirat, A., Manasatitpong, K., Nasawad, T., Pongampai, S., Simantathammakul, T., Srisawad, P., Wongprachanukul, N., Yan, Y., Yu, C., Zhang, X., Zhu, W., Antokhin, E., Barnyakov, A. Yu., Beloborodov, K., Blinov, V. E., Kuyanov, I. A., Pivovarov, S., Pyata, E., Tikhonov, Y., Blinov, A. E., Kononov, S., Kravchenko, E. A., Lattery, M., Boca, G., Duda, D., Finger, M., Finger, Jr., M., Kveton, A., Pesek, M., Peskova, M., Prochazka, I., Slunecka, M., Volf, M., Gallus, P., Jary, V., Korchak, O., Marcisovsky, M., Neue, G., Novy, J., Tomasek, L., Tomasek, M., Virius, M., Vrba, V., Abramov, V., Bukreeva, S., Chernichenko, S., Derevschikov, A., Ferapontov, V., Goncharenko, Y., Levin, A., Maslova, E., Melnik, Y., Meschanin, A., Minaev, N., Mochalov, V., Moiseev, V., Morozov, D., Nogach, L., Poslavskiy, S., Ryazantsev, A., Ryzhikov, S., Semenov, P., Shein, I., Uzunian, A., Vasiliev, A., Yakutin, A., Belostotski, S., Fedotov, G., Izotov, A., Manaenkov, S., Miklukho, O., Preston, M., Tegner, P. E., Wölbing, D., Cederwall, B., Gandhi, K., Rai, A. K., Godre, S., Crede, V., Dobbs, S., Eugenio, P., Calvo, D., De Remigis, P., Filippi, A., Mazza, G., Wheadon, R., Iazzi, F., Lavagno, A., Bussa, M. P., Spataro, S., Akram, A., Calen, H., Ikegami Andersson, W., Johansson, T., Kupsc, A., Marciniewski, P., Papenbrock, M., Regina, J., Rieger, J., Schönning, K., Wolke, M., Chlopik, A., Kesik, G., Melnychuk, D., Tarasiuk, J., Wronka, S., Zwieglinski, B., Amsler, C., Bühler, P., Marton, J., and Zimmermann, S.

Published

2021

13. Feasibility studies for the measurement of time-like proton electromagnetic form factors from p¯p→μ+μ-P¯ANDA at p¯p→μ+μ-P¯ANDA at FAIR

Author

Barucca, G., Davì, F., Lancioni, G., Mengucci, P., Montalto, L., Natali, P. P., Paone, N., Rinaldi, D., Scalise, L., Erni, W., Krusche, B., Steinacher, M., Walford, N., Cao, N., Liu, Z., Liu, C., Liu, B., Shen, X., Sun, S., Tao, J., Xiong, X. A., Zhao, G., Zhao, J., Albrecht, M., Alkakhi, W., Bökelmann, S., Coen, S., Feldbauer, F., Fink, M., Frech, J., Freudenreich, V., Fritsch, M., Grochowski, J., Hagdorn, R., Heinsius, F. H., Held, T., Holtmann, T., Keshk, I., Koch, H., Kopf, B., Kuhlmann, M., Kümmel, M., Küßner, M., Li, J., Linzen, L., Maldaner, S., Oppotsch, J., Pankonin, S., Pelizäus, M., Pflüger, S., Pitka, A., Reher, J., Reicherz, G., Schnier, C., Steinke, M., Triffterer, T., Wenzel, C., Wiedner, U., Denizli, H., Er, N., Keskin, U., Olgun, A. T., Yerlikaya, S., Yilmaz, A., Beck, R., Hammann, C., Hartmann, J., Ketzer, B., Müllers, J., Rossbach, M., Salisbury, B., Schmidt, C., Thoma, U., Urban, M., Bianconi, A., Bragadireanu, M., Pantea, D., Domagala, M., Filo, G., Lisowski, E., Lisowski, F., Michałek, M., Poznański, P., Płażek, J., Korcyl, K., Kozela, A., Lebiedowicz, P., Pysz, K., Schäfer, W., Szczurek, A., Firlej, M., Fiutowski, T., Idzik, M., Moron, J., Swientek, K., Terlecki, P., Korcyl, G., Lalik, R., Malige, A., Moskal, P., Nowakowski, K., Przygoda, W., Rathod, N., Rudy, Z., Salabura, P., Smyrski, J., Augustin, I., Böhm, R., Lehmann, I., Schmitt, L., Varentsov, V., Al-Turany, M., Belias, A., Deppe, H., Dzhygadlo, R., Flemming, H., Gerhardt, A., Götzen, K., Heinz, A., Jiang, P., Karabowicz, R., Koch, S., Kurilla, U., Lehmann, D., Lühning, J., Lynen, U., Orth, H., Peters, K., Saito, T., Schepers, G., Schmidt, C. J., Schwarz, C., Schwiening, J., Täschner, A., Traxler, M., Voss, B., Wieczorek, P., Abazov, V., Alexeev, G., Arefiev, V. A., Astakhov, V., Barabanov, M. Yu., Batyunya, B. V., Dodokhov, V. Kh., Efremov, A., Fechtchenko, A., Galoyan, A., Golovanov, G., Koshurnikov, E. K., Lobanov, Y. Yu., Olshevskiy, A. G., Piskun, A. A., Samartsev, A., Shimanski, S., Skachkov, N. B., Skachkova, A. N., Strokovsky, E. A., Tokmenin, V., Uzhinsky, V., Verkheev, A., Vodopianov, A., Zhuravlev, N. I., Branford, D., Watts, D., Böhm, M., Eyrich, W., Lehmann, A., Miehling, D., Pfaffinger, M., Quin, N., Robison, L., Seth, K., Xiao, T., Bettoni, D., Ali, A., Hamdi, A., Himmelreich, M., Krebs, M., Nakhoul, S., Nerling, F., Belousov, A., Kisel, I., Kozlov, G., Pugach, M., Zyzak, M., Bianchi, N., Gianotti, P., Lucherini, V., Bracco, G., Bettner, Y., Bodenschatz, S., Brinkmann, K. T., Brück, L., Diehl, S., Dormenev, V., Düren, M., Erlen, T., Föhl, K., Hahn, C., Hayrapetyan, A., Hofmann, J., Kegel, S., Kesselkaul, M., Köseoglu, I., Kripko, A., Kühn, W., Lange, J. S., Metag, V., Moritz, M., Nanova, M., Novotny, R., Orsich, P., Pereira-de-Lira, J., Peter, M., Sachs, M., Schmidt, M., Schubert, R., Stenzel, H., Straube, M., Strickert, M., Thöring, U., Wasem, T., Wohlfahrt, B., Zaunick, H. G., Tomasi-Gustafsson, E., Glazier, D., Ireland, D., Seitz, B., Deepak, P. N., Kulkarni, A., Kappert, R., Kavatsyuk, M., Loehner, H., Messchendorp, J., Rodin, V., Schakel, P., Vejdani, S., Dutta, K., Kalita, K., Huang, G., Liu, D., Peng, H., Qi, H., Sun, Y., Zhou, X., Kunze, M., Azizi, K., Tavukoglu, Z., Derichs, A., Dosdall, R., Esmail, W., Gillitzer, A., Goldenbaum, F., Grunwald, D., Jokhovets, L., Kannika, J., Kulessa, P., Orfanitski, S., Pérez Andrade, G., Prasuhn, D., Prencipe, E., Pütz, J., Ritman, J., Rosenthal, E., Schadmand, S., Schmitz, R., Scholl, A., Sefzick, T., Serdyuk, V., Stockmanns, T., Veretennikov, D., Wintz, P., Wüstner, P., Xu, H., Zhou, Y., Cao, X., Hu, Q., Li, Z., Li, H., Liang, Y., Ma, X., Rigato, V., Isaksson, L., Achenbach, P., Corell, O., Denig, A., Distler, M., Hoek, M., Lauth, W., Leithoff, H. H., Liu, Z., Merkel, H., Müller, U., Pochodzalla, J., Schlimme, S., Sfienti, C., Thiel, M., Zambrana, M., Ahmed , S., Bleser, S., Bölting, M., Capozza, L., Dbeyssi, A., Ehret, A., Klasen, R., Kliemt, R., Maas, F., Motzko, C., Noll, O., Piñeiro, D. Rodríguez, Schupp, F., Steinen, M., Wolff, S., Zimmermann, I., Fedorov, A., Kazlou, D., Korzhik, M., Missevitch, O., Balanutsa, P., Chernetsky, V., Demekhin, A., Dolgolenko, A., Fedorets, P., Gerasimov, A., Golubev, A., Goryachev, V., Kantsyrev, A., Kirin, D. Y., Kristi, N., Ladygina, E., Luschevskaya, E., Matveev, V. A., Panjushkin, V., Stavinskiy, A. V., Balashoff, A., Boukharov, A., Malyshev, O., Basant, K. N., Kumawat, H., Roy, B., Saxena, A., Yogesh, S., Bonaventura, D., Brand, P., Fritzsch, C., Grieser, S., Hargens, C., Hergemöller, A. K., Hetz, B., Hüsken, N., Kellers, J., Khoukaz, A., Mannweiler, C., Vestrick, S., Bumrungkoh, D., Herold, C., Khosonthongkee, K., Kobdaj, C., Limphirat, A., Manasatitpong, K., Nasawad, T., Pongampai, S., Simantathammakul, T., Srisawad, P., Wongprachanukul, N., Yan, Y., Yu, C., Zhang, X., Zhu, W., Blinov, A. E., Kononov, S., Kravchenko, E. A., Antokhin, E., Barnyakov, A. Yu., Beloborodov, K., Blinov, V. E., Kuyanov, I. A., Pivovarov, S., Pyata, E., Tikhonov, Y., Hunter, G., Lattery, M., Pace, H., Boca, G., Duda, D., Finger, M., Finger, Jr., M., Kveton, A., Pesek, M., Peskova, M., Prochazka, I., Slunecka, M., Volf, M., Gallus, P., Jary, V., Korchak, O., Marcisovsky, M., Neue, G., Novy, J., Tomasek, L., Tomasek, M., Virius, M., Vrba, V., Abramov, V., Bukreeva, S., Chernichenko, S., Derevschikov, A., Ferapontov, V., Goncharenko, Y., Levin, A., Maslova, E., Melnik, Y., Meschanin, A., Minaev, N., Mochalov, V., Moiseev, V., Morozov, D., Nogach, L., Poslavskiy, S., Ryazantsev, A., Ryzhikov, S., Semenov, P., Shein, I., Uzunian, A., Vasiliev, A., Yakutin, A., Roy, U., Yabsley, B., Belostotski, S., Fedotov, G., Gavrilov, G., Izotov, A., Manaenkov, S., Miklukho, O., Zhdanov, A., Atac, A., Bäck, T., Cederwall, B., Makonyi, K., Preston, M., Tegner, P. E., Wölbing, D., Gandhi, K., Rai, A. K., Godre, S., Crede, V., Dobbs, S., Eugenio, P., Lersch, D., Calvo, D., De Remigis, P., Filippi, A., Mazza, G., Rivetti, A., Wheadon, R., Bussa, M. P., Spataro, S., Iazzi, F., Lavagno, A., Martin, A., Akram, A., Calen, H., Andersson, W. Ikegami, Johansson, T., Kupsc, A., Marciniewski, P., Papenbrock, M., Regina, J., Rieger, J., Schönning, K., Wolke, M., Pothodi Chackara, V., Chlopik, A., Kesik, G., Melnychuk, D., Tarasiuk, J., Wojciechowski, M., Wronka, S., Zwieglinski, B., Amsler, C., Bühler, P., Marton, J., Nalti, W., Steinschaden, D., Widmann, E., Zimmermann, S., and Zmeskal, J.

Published

2021

14. Effects of build orientation and element partitioning on microstructure and mechanical properties of biomedical Ti-6Al-4V alloy produced by laser sintering

Author

Mengucci, P., Gatto, A., Bassoli, E., Denti, L., Fiori, F., Girardin, E., Bastianoni, P., Rutkowski, B., Czyrska-Filemonowicz, A., and Barucca, G.

Published

2017

15. Magnetic anisotropy phase-graded A1/L10-FePt films on amorphous glass substrates

Author

Barucca, G., Speliotis, Th., Giannopoulos, G., Niarchos, D., Rutkowski, B., Czyrska-Filemonowicz, A., Agostinelli, E., Laureti, S., Testa, A.M., and Varvaro, G.

Published

2017

16. Flexible and printed magnetic field sensors

Author

(0000-0002-3931-5945) Zabila, Y., (0000-0003-2693-1180) Makushko, P., (0000-0002-7277-7287) Oliveros Mata, E. S., Kosub, T., (0000-0002-8089-6294) Illing, R., (0000-0001-7246-4099) Volkov, O., (0000-0003-3893-9630) Faßbender, J., Mönch, J. I., Xu, R., (0000-0002-5947-9760) Pylypovskyi, O., (0000-0002-7177-4308) Makarov, D., (0000-0002-1660-4437) Cañón Bermúdez, G. S., (0000-0002-4474-885X) Milkin, P., (0000-0002-0770-6140) Ionov, L., Hassan, M., Laureti, S., Rinaldi, C., Fagiani, F., Barucca, G., Schmidt, N., Albrecht, M., Vladymyrskyi, I., Varvaro, G., Ha, M., Wang, Y., (0000-0002-3931-5945) Zabila, Y., (0000-0003-2693-1180) Makushko, P., (0000-0002-7277-7287) Oliveros Mata, E. S., Kosub, T., (0000-0002-8089-6294) Illing, R., (0000-0001-7246-4099) Volkov, O., (0000-0003-3893-9630) Faßbender, J., Mönch, J. I., Xu, R., (0000-0002-5947-9760) Pylypovskyi, O., (0000-0002-7177-4308) Makarov, D., (0000-0002-1660-4437) Cañón Bermúdez, G. S., (0000-0002-4474-885X) Milkin, P., (0000-0002-0770-6140) Ionov, L., Hassan, M., Laureti, S., Rinaldi, C., Fagiani, F., Barucca, G., Schmidt, N., Albrecht, M., Vladymyrskyi, I., Varvaro, G., Ha, M., and Wang, Y.

Abstract

Work with spintronic functional elements for flexible magnetic field sensors, we was interested in improving their performance, relying on new materials and metrological approaches. We employ novel fabrication technics as an alternating magnetic field activation of self-healing of percolation network [1]. It allows to fabricate printable magnetoresistive sensors revealing an enhancement in sensitivity of more than one and two orders of magnitude, relative to previous reports. Printed electronics are attractive due to their low-cost and large-area processing features, which have been successfully extended to magnetoresistive sensors and devices [2]. This technology was enabled initially, by thin films magnetic field sensors, embedded in a soft and flexible format to constitute magntosensitive electronic skin (e-skins). But now we demonstrate what interactive electronics, based on flexible spin valve switches [3] or printed and stretchable Giant Magnetoresistive Sensors, could act also as a logic elements, namely momentary and permanent (latching) switches. All this printing technology aspects are yet to be developed to comply with requirements to mechanical conformability of on-skin appliances. Due to the fact that the metallic layer is subjected to unsteady mechanical stresses, deposition of the magnetic sensor onto few microns thick non-rigid substrate creates a numerous problems, and the strain sensitivity is the first effect which have to be discussed. The thermoelectric effect is the second effect that also have to be considered in order to minimize thermal errors. These aspects will be discussed more detailed in this contribution. References [1] R. Xu, Nature Communications 13, 6587 (2022) [2] E. S. Oliveros Mata, Applied Physics A 127, 280 (2021) [3] P. Makushko, Adv. Funct. Mater. 31, 2101089 (2021) [4] M. Ha, Adv. Mater. 33, 2005521 (2021)

Published

2023

17. Skin-conformal magnetoreceptors human-machine interaction

Author

(0000-0003-2693-1180) Makushko, P., (0000-0002-7277-7287) Oliveros Mata, E. S., Canon Bermundez, G. S., Hassan, M., Laureti, S., Rinaldi, C., Fagiani, F., Barucca, G., (0000-0002-3931-5945) Zabila, Y., (0000-0003-3893-9630) Faßbender, J., Vladymyrskyi, I., Albrecht, M., Varvaro, G., Xu, R., (0000-0002-7177-4308) Makarov, D., (0000-0003-2693-1180) Makushko, P., (0000-0002-7277-7287) Oliveros Mata, E. S., Canon Bermundez, G. S., Hassan, M., Laureti, S., Rinaldi, C., Fagiani, F., Barucca, G., (0000-0002-3931-5945) Zabila, Y., (0000-0003-3893-9630) Faßbender, J., Vladymyrskyi, I., Albrecht, M., Varvaro, G., Xu, R., and (0000-0002-7177-4308) Makarov, D.

Abstract

Artificial magnetoception, i.e., electronically expanding human perception to detect magnetic fields, is a new and yet unexplored route for interacting with our surroundings. This technology relies on thin, soft, and flexible magnetic field sensors, dubbed magnetosensitive electronic skins (e-skins) [1]. These devices enable reliable and obstacle insensitive proximity, orientation and motion tracking features [2, 3] as well as bimodal touchless-tactile interaction [4]. Although, basic interactive functionality has been demonstrated, the current on-skin magnetoreceptors are not yet employed as advanced spintronics-enabled switches and logic elements for skin compliant electronics. The major limitation remains primarily due to the use of in-plane magnetized layer stacks. The predominant in-plane sensitivity prevents these devices from becoming intuitive switches or logic elements for interactive flexible electronics, as the natural actuation axis of switches is out-of-plane. Here, we will introduce current technologies towards realization of skin-conformal magnetoelectronics for touchless and tactile interactivity in virtual and augmented reality. The focus will be put on the fabrication of on-skin spin valve switches with out-of-plane sensitivity to magnetic fields [5]. The device is realized on a flexible foil relying on Co/Pd multilayers with perpendicular magnetic anisotropy and synthetic antiferromagnet as a reference layer. Owing to the intrinsic tunability, these interactive elements can provide fundamental logic functionality represented by momentary and permanent (latching) switches and reliably discriminate the useful signals from the magnetic noise. The flexible device retain its performance upon bending down to 3.5 mm bending radii withstand more than 600 bending cycles. We showcase the performance of our device as on-skin touchless human-machine interfaces, which allows interactivity with a virtual environment, based on external magnetic fields. We envisi

Published

2023

18. Effects of thermal treatments on microstructure and mechanical properties of a Co–Cr–Mo–W biomedical alloy produced by laser sintering

Author

Mengucci, P., Barucca, G., Gatto, A., Bassoli, E., Denti, L., Fiori, F., Girardin, E., Bastianoni, P., Rutkowski, B., and Czyrska-Filemonowicz, A.

Published

2016

19. Biomedical Co-Cr-Mo Components Produced by Direct Metal Laser Sintering

Author

Girardin, E., Barucca, G., Mengucci, P., Fiori, F., Bassoli, E., Gatto, A., Iuliano, L., and Rutkowski, B.

Published

2016

20. Hydrogen storage properties of Pd-doped thermally oxidized single wall carbon nanohorns

Author

Giasafaki, D., Charalambopoulou, G., Tampaxis, Ch., Mirabile Gattia, D., Montone, A., Barucca, G., and Steriotis, Th.

Published

2015

21. Structural, mechanical and light yield characterisation of heat treated LYSO:Ce single crystals for medical imaging applications

Author

Mengucci, P., André, G., Auffray, E., Barucca, G., Cecchi, C., Chipaux, R., Cousson, A., Davì, F., Di Vara, N., Rinaldi, D., and Santecchia, E.

Published

2015

22. Flexible and printed magnetic field sensors

Author

Zabila, Y., Makushko, P., Oliveros Mata, E. S., Kosub, T., Illing, R., Volkov, O., Faßbender, J., Mönch, J. I., Xu, R., Pylypovskyi, O., Makarov, D., Cañón Bermúdez, G. S., Milkin, P., Ionov, L., Hassan, M., Laureti, S., Rinaldi, C., Fagiani, F., Barucca, G., Schmidt, N., Albrecht, M., Vladymyrskyi, I., Varvaro, G., Ha, M., and Wang, Y.

Subjects

Magnetic, Flexible, Sensor

Abstract

Work with spintronic functional elements for flexible magnetic field sensors, we was interested in improving their performance, relying on new materials and metrological approaches. We employ novel fabrication technics as an alternating magnetic field activation of self-healing of percolation network [1]. It allows to fabricate printable magnetoresistive sensors revealing an enhancement in sensitivity of more than one and two orders of magnitude, relative to previous reports. Printed electronics are attractive due to their low-cost and large-area processing features, which have been successfully extended to magnetoresistive sensors and devices [2]. This technology was enabled initially, by thin films magnetic field sensors, embedded in a soft and flexible format to constitute magntosensitive electronic skin (e-skins). But now we demonstrate what interactive electronics, based on flexible spin valve switches [3] or printed and stretchable Giant Magnetoresistive Sensors, could act also as a logic elements, namely momentary and permanent (latching) switches. All this printing technology aspects are yet to be developed to comply with requirements to mechanical conformability of on-skin appliances. Due to the fact that the metallic layer is subjected to unsteady mechanical stresses, deposition of the magnetic sensor onto few microns thick non-rigid substrate creates a numerous problems, and the strain sensitivity is the first effect which have to be discussed. The thermoelectric effect is the second effect that also have to be considered in order to minimize thermal errors. These aspects will be discussed more detailed in this contribution. References [1] R. Xu, Nature Communications 13, 6587 (2022) [2] E. S. Oliveros Mata, Applied Physics A 127, 280 (2021) [3] P. Makushko, Adv. Funct. Mater. 31, 2101089 (2021) [4] M. Ha, Adv. Mater. 33, 2005521 (2021)

Published

2023

23. Skin-conformal magnetoreceptors human-machine interaction

Author

Makushko, P., Oliveros Mata, E. S., Canon Bermundez, G. S., Hassan, M., Laureti, S., Rinaldi, C., Fagiani, F., Barucca, G., Zabila, Y., Faßbender, J., Vladymyrskyi, I., Albrecht, M., Varvaro, G., Xu, R., and Makarov, D.

Abstract

Artificial magnetoception, i.e., electronically expanding human perception to detect magnetic fields, is a new and yet unexplored route for interacting with our surroundings. This technology relies on thin, soft, and flexible magnetic field sensors, dubbed magnetosensitive electronic skins (e-skins) [1]. These devices enable reliable and obstacle insensitive proximity, orientation and motion tracking features [2, 3] as well as bimodal touchless-tactile interaction [4]. Although, basic interactive functionality has been demonstrated, the current on-skin magnetoreceptors are not yet employed as advanced spintronics-enabled switches and logic elements for skin compliant electronics. The major limitation remains primarily due to the use of in-plane magnetized layer stacks. The predominant in-plane sensitivity prevents these devices from becoming intuitive switches or logic elements for interactive flexible electronics, as the natural actuation axis of switches is out-of-plane. Here, we will introduce current technologies towards realization of skin-conformal magnetoelectronics for touchless and tactile interactivity in virtual and augmented reality. The focus will be put on the fabrication of on-skin spin valve switches with out-of-plane sensitivity to magnetic fields [5]. The device is realized on a flexible foil relying on Co/Pd multilayers with perpendicular magnetic anisotropy and synthetic antiferromagnet as a reference layer. Owing to the intrinsic tunability, these interactive elements can provide fundamental logic functionality represented by momentary and permanent (latching) switches and reliably discriminate the useful signals from the magnetic noise. The flexible device retain its performance upon bending down to 3.5 mm bending radii withstand more than 600 bending cycles. We showcase the performance of our device as on-skin touchless human-machine interfaces, which allows interactivity with a virtual environment, based on external magnetic fields. We envision that this technology platform will pave the way towards magnetoreceptive human-machine interfaces or virtual- and augmented reality applications, which are intuitive to use, energy efficient, and insensitive to external magnetic disturbances.

Published

2023

24. L10-FeNi films on Au-Cu-Ni buffer-layer: a high-throughput combinatorial study

Author

Giannopoulos, G., Barucca, G., Kaidatzis, A., Psycharis, V., Salikhov, R., Farle, M., Koutsouflakis, E., Niarchos, D., Mehta, A., Scuderi, M., Nicotra, G., Spinella, C., Laureti, S., and Varvaro, G.

Published

2018

25. Magnesium growth in magnesium deuteride thin films during deuterium desorption

Author

Checchetto, R., Miotello, A., Mengucci, P., and Barucca, G.

Published

2013

26. Study of microstructure and magnetization reversal mechanism in granular CoCrPt:SiO2 films of variable thickness

Author

Varvaro, G., Testa, A.M., Agostinelli, E., Fiorani, D., Laureti, S., Springer, F., Brombacher, C., Albrecht, M., Del Bianco, L., Barucca, G., Mengucci, P., and Rinaldi, D.

Published

2013

27. Skin-conformal magnetoreceptors for human-machine interaction

Author

(0000-0003-2693-1180) Makushko, P., (0000-0002-7277-7287) Oliveros Mata, E. S., Canon Bermundez, G. S., Hassan, M., Laureti, S., Rinaldi, C., Fagiani, F., Barucca, G., (0000-0002-3931-5945) Zabila, Y., (0000-0003-3893-9630) Faßbender, J., Vladymyrskyi, I., Albrecht, M., Varvaro, G., Xu, R., (0000-0002-7177-4308) Makarov, D., (0000-0003-2693-1180) Makushko, P., (0000-0002-7277-7287) Oliveros Mata, E. S., Canon Bermundez, G. S., Hassan, M., Laureti, S., Rinaldi, C., Fagiani, F., Barucca, G., (0000-0002-3931-5945) Zabila, Y., (0000-0003-3893-9630) Faßbender, J., Vladymyrskyi, I., Albrecht, M., Varvaro, G., Xu, R., and (0000-0002-7177-4308) Makarov, D.

Abstract

Artificial magnetoception, i.e., electronically expanding human perception to detect magnetic fields, is a new and yet unexplored route for interacting with our surroundings. This technology relies on thin, soft, and flexible magnetic field sensors, dubbed magnetosensitive electronic skins (e-skins) [1]. These devices enable reliable and obstacle insensitive proximity, orientation and motion tracking features [2, 3] as well as bimodal touchless-tactile interaction [4]. Although, basic interactive functionality has been demonstrated, the current on-skin magnetoreceptors are not yet employed as advanced spintronics-enabled switches and logic elements for skin compliant electronics. The major limitation remains primarily due to the use of in-plane magnetized layer stacks. The predominant in-plane sensitivity prevents these devices from becoming intuitive switches or logic elements for interactive flexible electronics, as the natural actuation axis of switches is out-of-plane. Here, we will introduce current technologies towards realization of skin-conformal magnetoelectronics for touchless and tactile interactivity in virtual and augmented reality. The focus will be put on the fabrication of on-skin spin valve switches with out-of-plane sensitivity to magnetic fields [5]. The device is realized on a flexible foil relying on Co/Pd multilayers with perpendicular magnetic anisotropy and synthetic antiferromagnet as a reference layer. Owing to the intrinsic tunability, these interactive elements can provide fundamental logic functionality represented by momentary and permanent (latching) switches and reliably discriminate the useful signals from the magnetic noise. The flexible device retain its performance upon bending down to 3.5 mm bending radii withstand more than 600 bending cycles. We showcase the performance of our device as on-skin touchless human-machine interfaces, which allows interactivity with a virtual environment, based on external magnetic fields. We envisi

Published

2022

28. Flexible magnetoreceptive switch for on-skin touchless human-machine interaction.

Author

(0000-0003-2693-1180) Makushko, P., (0000-0002-7277-7287) Oliveros Mata, E. S., Canon Bermundez, G. S., Hassan, M., Laureti, S., Rinaldi, C., Fagiani, F., Barucca, G., Schmidt, N., (0000-0002-3931-5945) Zabila, Y., Kosub, T., (0000-0002-8089-6294) Illing, R., (0000-0001-7246-4099) Volkov, O., Vladymyrskyi, I., (0000-0003-3893-9630) Faßbender, J., Albrecht, M., Varvaro, G., (0000-0002-7177-4308) Makarov, D., (0000-0003-2693-1180) Makushko, P., (0000-0002-7277-7287) Oliveros Mata, E. S., Canon Bermundez, G. S., Hassan, M., Laureti, S., Rinaldi, C., Fagiani, F., Barucca, G., Schmidt, N., (0000-0002-3931-5945) Zabila, Y., Kosub, T., (0000-0002-8089-6294) Illing, R., (0000-0001-7246-4099) Volkov, O., Vladymyrskyi, I., (0000-0003-3893-9630) Faßbender, J., Albrecht, M., Varvaro, G., and (0000-0002-7177-4308) Makarov, D.

Abstract

Skin compliant magnetoreceptive electronics is a game changer for prospective human-machine interactions and augmented reality applications [1]. Mechanically flexible magnetoresistive sensors enabled proximity sensing as well as motion and orientation tracking features[2,3] via interaction with magnetic objects. However, current on-skin magnetoreceptors are not yet employed as advanced spintronics-enabled switches and logic elements for skin compliant electronics. The major limitation is the use of in-plane magnetized layer stacks, sensitive mainly to magnetic fields oriented within the sensor plane. Flexible Hall effect sensors[4,5] provide out-of-plane sensitivity but no intrinsic logic, thus requiring more complex electronics. Considering the lower performance of flexible electronics compared to their rigid counterparts[ 6], full-fledged flexible interactive systems should be based on smart receptors with intrinsic logic functionality. Here we present the first mechanically flexible switch based on spin valves sensitive to out-of-plane magnetic fields[7]. The device is realized on a flexible polyethylene naphthalate (PEN) foil and rely on Co/Pd multilayers with perpendicular magnetic anisotropy and synthetic antiferromagnet as a reference layer. By tuning the magnetic coupling strength between the free and the reference layers, the functionality of the device can be tailored between momentary or permanent (latching) switch. The flexible device retains its performance upon bending down to a bending radius of 3.5 mm and withstand more than 600 bendings. We demonstrate the performance of our device as touchless interactive interface for augmented reality systems, as well as its tolerance to the magnetic field disturbances. We showcase the potential of this new kind of flexible magnetoreceptive functional elements as on-skin human-machine interfaces for virtual and augmented reality applications

Published

2022

29. Skin-conformal magnetoreceptors for human-machine interaction

Author

Makushko, P., Oliveros Mata, E. S., Canon Bermundez, G. S., Hassan, M., Laureti, S., Rinaldi, C., Fagiani, F., Barucca, G., Zabila, Y., Faßbender, J., Vladymyrskyi, I., Albrecht, M., Varvaro, G., Xu, R., and Makarov, D.

Abstract

Artificial magnetoception, i.e., electronically expanding human perception to detect magnetic fields, is a new and yet unexplored route for interacting with our surroundings. This technology relies on thin, soft, and flexible magnetic field sensors, dubbed magnetosensitive electronic skins (e-skins) [1]. These devices enable reliable and obstacle insensitive proximity, orientation and motion tracking features [2, 3] as well as bimodal touchless-tactile interaction [4]. Although, basic interactive functionality has been demonstrated, the current on-skin magnetoreceptors are not yet employed as advanced spintronics-enabled switches and logic elements for skin compliant electronics. The major limitation remains primarily due to the use of in-plane magnetized layer stacks. The predominant in-plane sensitivity prevents these devices from becoming intuitive switches or logic elements for interactive flexible electronics, as the natural actuation axis of switches is out-of-plane. Here, we will introduce current technologies towards realization of skin-conformal magnetoelectronics for touchless and tactile interactivity in virtual and augmented reality. The focus will be put on the fabrication of on-skin spin valve switches with out-of-plane sensitivity to magnetic fields [5]. The device is realized on a flexible foil relying on Co/Pd multilayers with perpendicular magnetic anisotropy and synthetic antiferromagnet as a reference layer. Owing to the intrinsic tunability, these interactive elements can provide fundamental logic functionality represented by momentary and permanent (latching) switches and reliably discriminate the useful signals from the magnetic noise. The flexible device retain its performance upon bending down to 3.5 mm bending radii withstand more than 600 bending cycles. We showcase the performance of our device as on-skin touchless human-machine interfaces, which allows interactivity with a virtual environment, based on external magnetic fields. We envision that this technology platform will pave the way towards magnetoreceptive human-machine interfaces or virtual- and augmented reality applications, which are intuitive to use, energy efficient, and insensitive to external magnetic disturbances.

Published

2022

30. Flexible Magnetoreceptive Switch for On-Skin Touchless Human-Machine Interaction

Author

Makushko, P., Oliveros Mata, E. S., Canon Bermundez, G. S., Hassan, M., Laureti, S., Rinaldi, C., Fagiani, F., Barucca, G., Schmidt, N., Zabila, Y., Kosub, T., Illing, R., Volkov, O., Vladymyrskyi, I., Faßbender, J., Albrecht, M., Varvaro, G., and Makarov, D.

Abstract

Artificial magnetoception, i.e., electronically expanding human perception to detect magnetic fields, is a new and yet unexplored route for interacting with our surroundings. This technology relies on thin, soft, and flexible magnetic field sensors, dubbed magnetosensitive electronic skins (e-skins) [1]. These devices enable reliable and obstacle insensitive proximity, orientation and motion tracking features [2, 3] as well as bimodal touchless-tactile interaction [4]. Although, basic interactive functionality has been demonstrated, the current on-skin magnetoreceptors are not yet employed as advanced spintronics-enabled switches and logic elements for skin compliant electronics. The major limitation remains primarily due to the use of in-plane magnetized layer stacks, sensitive mainly to the magnetic fields oriented within the sensor plane. This prevailing in-plane sensitivity has prevented them from becoming intuitive switches or logic elements for interactive flexible electronics, as the natural actuation axis of switches is out-of-plane. Flexible Hall effect sensors [5, 6] could provide out-of-plane sensitivity, but not intrinsic logic functionality. In this work, we present the very first tunable magnetoreceptive platform for on-skin touchless interactive electronics based on flexible spin valve switch elements with dedicated out-of-plane sensitivity to magnetic fields [5]. The device is realized on a flexible polyethylene naphthalate (PEN) foil relying on Co/Pd multilayers with perpendicular magnetic anisotropy and synthetic antiferromagnet as a reference layer. Owing to the intrinsic tunability, these interactive elements can provide fundamental logic functionality represented by momentary and permanent (latching) switches and reliably discriminate the useful signals from the magnetic noise. The flexible device retain its performance upon bending down to 3.5 mm bending radii and withstand more than 600 bending cycles. We showcase the performance of our device as on-skin touchless human-machine interfaces, which allows interactivity with a virtual environment, based on external magnetic fields. Depending on the material properties of the on-skin switch used, the virtual functions can be impervious to (latching) or controlled by (momentary) ambient magnetic stimuli. We envision that this technology platform will pave the way towards magnetoreceptive humanmachine interfaces or virtual- and augmented reality applications, which are intuitive to use, energy efficient, and insensitive to external magnetic disturbances.

Published

2022

31. Formation and evolution of the hardening precipitates in a Mg–Y–Nd alloy

Author

Barucca, G., Ferragut, R., Fiori, F., Lussana, D., Mengucci, P., Moia, F., and Riontino, G.

Published

2011

32. Structure modification of Mg–Nb films under hydrogen sorption cycles

Author

Mengucci, P., Barucca, G., Majni, G., Bazzanella, N., Checchetto, R., and Miotello, A.

Published

2011

33. Phase transformations in QE22 Mg alloy

Author

Barucca, G., Ferragut, R., Lussana, D., Mengucci, P., Moia, F., and Riontino, G.

Published

2009

34. Study of excited baryons with the PANDA detector

Author

Barucca, G., Davì, F., Lancioni, G., Mengucci, P., Montalto, L., Natali, P. P., Paone, N., Rinaldi, D., Scalise, L., Krusche, B., Steinacher, M., Liu, Z., Liu, C., Liu, B., Shen, X., Sun, S., Zhao, G., Zhao, J., Albrecht, M., Alkakhi, W., Bökelmann, S., Coen, S., Feldbauer, F., Fink, M., Frech, J., Freudenreich, V., Fritsch, M., Grochowski, J., Hagdorn, R., Heinsius, F. H., Held, T., Holtmann, T., Keshk, I., Koch, H., Kopf, B., Kümmel, M., Küßner, M., Li, J., Linzen, L., Maldaner, S., Oppotsch, J., Pankonin, S., Pelizä, M., Pflüger, S., Reher, J., Reicherz, G., Schnier, C., Steinke, M., Triffterer, T., Wenzel, C., Wiedner, U., Denizli, H., Er, N., Keskin, U., Yerlikaya, S., Yilmaz, A., Beck, R., Chauhan, V., Hammann, C., Hartmann, J., Ketzer, B., Müllers, J., Salisbury, B., Schmidt, C., Thoma, U., Urban, M., Bianconi, A., Bragadireanu, M., Pantea, D., Domagala, M., Filo, G., Lisowski, E., Lisowski, F., Michałek, M., Poznański, P., Płażek, J., Korcyl, K., Lebiedowicz, P., Pysz, K., Schäfer, W., Szczurek, A., Firlej, M., Fiutowski, T., Idzik, M., Moron, J., Swientek, K., Terlecki, P., Korcyl, G., Lalik, R., Malige, A., Moskal, P., Nowakowski, K., Przygoda, W., Rathod, N., Salabura, P., Smyrski, J., Augustin, I., Böhm, R., Lehmann, I., Schmitt, L., Varentsov, V., Al-Turany, M., Belias, A., Deppe, H., Dzhygadlo, R., Flemming, H., Gerhardt, A., Götzen, K., Heinz, A., Jiang, P., Karabowicz, R., Koch, S., Kurilla, U., Lehmann, D., Lühning, J., Lynen, U., Orth, H., Peters, K., Schepers, G., Schmidt, C. J., Schwarz, C., Schwiening, J., Täschner, A., Traxler, M., Voss, B., Wieczorek, P., Abazov, V., Alexeev, G., Barabanov, M. Yu., Dodokhov, V. Kh., Efremov, A., Fechtchenko, A., Galoyan, A., Golovanov, G., Koshurnikov, E. K., Lobanov, Y. Yu., Olshevskiy, A. G., Piskun, A. A., Samartsev, A., Shimanski, S., Skachkov, N. B., Skachkova, A. N., Strokovsky, E. A., Tokmenin, V., Uzhinsky, V., Verkheev, A., Vodopianov, A., Zhuravlev, N. I., Watts, D., Böhm, M., Eyrich, W., Lehmann, A., Miehling, D., Pfaffinger, M., Seth, K., Xiao, T., Ali, A., Hamdi, A., Himmelreich, M., Krebs, M., Nakhoul, S., Nerling, F., Gianotti, P., Lucherini, V., Bracco, G., Bodenschatz, S., Brinkmann, K. T., Brück, L., Diehl, S., Dormenev, V., Düren, M., Erlen, T., Hahn, C., Hayrapetyan, A., Hofmann, J., Kegel, S., Khalid, F., Köseoglu, I., Kripko, A., Kühn, W., Metag, V., Moritz, M., Nanova, M., Novotny, R., Orsich, P., Pereira-de-Lira, J., Sachs, M., Schmidt, M., Schubert, R., Strickert, M., Wasem, T., Zaunick, H. G., Tomasi-Gustafsson, E., Glazier, D., Ireland, D., Seitz, B., Kappert, R., Kavatsyuk, M., Loehner, H., Messchendorp, J., Rodin, V., Kalita, K., Huang, G., Liu, D., Peng, H., Qi, H., Sun, Y., Zhou, X., Kunze, M., Azizi, K., Olgun, A. T., Tavukoglu, Z., Derichs, A., Dosdall, R., Esmail, W., Gillitzer, A., Goldenbaum, F., Grunwald, D., Jokhovets, L., Kannika, J., Kulessa, P., Orfanitski, S., Pérez-Andrade, G., Prasuhn, D., Prencipe, E., Pütz, J., Ritman, J., Rosenthal, E., Schadmand, S., Schmitz, R., Scholl, A., Sefzick, T., Serdyuk, V., Stockmanns, T., Veretennikov, D., Wintz, P., Wüstner, P., Xu, H., Zhou, Y., Cao, X., Hu, Q., Liang, Y., Rigato, V., Isaksson, L., Achenbach, P., Corell, O., Denig, A., Distler, M., Hoek, M., Lauth, W., Leithoff, H. H., Merkel, H., Müller, U., Petersen, J., Pochodzalla, J., Schlimme, S., Sfienti, C., Thiel, M., Bleser, S., Bölting, M., Capozza, L., Dbeyssi, A., Ehret, A., Klasen, R., Kliemt, R., Maas, F., Motzko, C., Noll, O., Piñeiro, D. Rodríguez, Schupp, F., Steinen, M., Wolff, S., Zimmermann, I., Kazlou, D., Korzhik, M., Missevitch, O., Balanutsa, P., Chernetsky, V., Demekhin, A., Dolgolenko, A., Fedorets, P., Gerasimov, A., Golubev, A., Kantsyrev, A., Kirin, D. Y., Kristi, N., Ladygina, E., Luschevskaya, E., Matveev, V. A., Panjushkin, V., Stavinskiy, A. V., Balashoff, A., Boukharov, A., Bukharova, M., Malyshev, O., Vishnevsky, E., Bonaventura, D., Brand, P., Hetz, B., Hüsken, N., Kellers, J., Khoukaz, A., Klostermann, D., Mannweiler, C., Vestrick, S., Bumrungkoh, D., Herold, C., Khosonthongkee, K., Kobdaj, C., Limphirat, A., Manasatitpong, K., Nasawad, T., Pongampai, S., Simantathammakul, T., Srisawad, P., Wongprachanukul, N., Yan, Y., Yu, C., Zhang, X., Zhu, W., Antokhin, E., Barnyakov, A. Yu., Beloborodov, K., Blinov, V. E., Kuyanov, I. A., Pivovarov, S., Pyata, E., Tikhonov, Y., Blinov, A. E., Kononov, S., Kravchenko, E. A., Lattery, M., Boca, G., Duda, D., Finger, M., Finger, Jr., M., Kveton, A., Pesek, M., Peskova, M., Prochazka, I., Slunecka, M., Volf, M., Gallus, P., Jary, V., Korchak, O., Marcisovsky, M., Neue, G., Novy, J., Tomasek, L., Tomasek, M., Virius, M., Vrba, V., Abramov, V., Bukreeva, S., Chernichenko, S., Derevschikov, A., Ferapontov, V., Goncharenko, Y., Levin, A., Maslova, E., Melnik, Y., Meschanin, A., Minaev, N., Mochalov, V., Moiseev, V., Morozov, D., Nogach, L., Poslavskiy, S., Ryazantsev, A., Ryzhikov, S., Semenov, P., Shein, I., Uzunian, A., Vasiliev, A., Yakutin, A., Belostotski, S., Fedotov, G., Izotov, A., Manaenkov, S., Miklukho, O., Preston, M., Tegner, P. E., Wölbing, D., Cederwall, B., Gandhi, K., Rai, A. K., Godre, S., Crede, V., Dobbs, S., Eugenio, P., Calvo, D., De Remigis, P., Filippi, A., Mazza, G., Wheadon, R., Iazzi, F., Lavagno, A., Bussa, M. P., Spataro, S., Akram, A., Calen, H., Ikegami Andersson, W., Johansson, T., Kupsc, A., Marciniewski, P., Papenbrock, M., Regina, J., Rieger, J., Schönning, K., Wolke, M., Chlopik, A., Kesik, G., Melnychuk, D., Tarasiuk, J., Wronka, S., Zwieglinski, B., Amsler, C., Bühler, P., Marton, J., and Zimmermann, S.

Subjects

ddc:530

Published

2021

35. The potential of Λ and Ξ- studies with PANDA at FAIR

Author

Barucca, G., Davi, F., Lancioni, G., Mengucci, P., Montalto, L., Natali, P. P., Paone, N., Rinaldi, D., Scalise, L., Erni, W., Krusche, B., Steinacher, M., Walford, N., Cao, N., Liu, Z., Liu, C., Liu, B., Shen, X., Sun, S., Tao, J., Xiong, X. A., Zhao, G., Zhao, J., Albrecht, M., Alkakhi, W., Bokelmann, S., Feldbauer, F., Fink, M., Frech, J., Freudenreich, V., Fritsch, M., Hagdorn, R., Heinsius, F. H., Held, T., Holtmann, T., Keshk, I., Koch, H., Kopf, B., Kuhlmann, M., Kummel, M., Kussner, M., Li, J., Mustafa, A., Pelizaus, M., Pitka, A., Reher, J., Reicherz, G., Richter, M., Schnier, C., Sohl, L., Steinke, M., Triffterer, T., Wenzel, C., Wiedner, U., Denizli, H., Er, N., Beck, R., Hammann, C., Hartmann, J., Ketzer, B., Mullers, J., Rossbach, M., Salisbury, B., Schmidt, C., Thoma, U., Urban, M., Bianconi, A., Bragadireanu, M., Pantea, D., Domagala, M., Filo, G., Lisowski, E., Lisowski, F., Michalek, M., Poznanski, P., Plazek, J., Korcyl, K., Kozela, A., Lebiedowicz, P., Pysz, K., Schafer, W., Szczurek, A., Fiutowski, T., Idzik, M., Swientek, K., Terlecki, P., Korcyl, G., Lalik, R., Malige, A., Moskal, P., Nowakowski, K., Przygoda, W., Rathod, N., Rudy, Z., Salabura, P., Smyrski, J., Augustin, I., Bohm, R., Lehmann, I., Schmitt, L., Varentsov, V., Al-Turany, M., Belias, A., Deppe, H., Dzhygadlo, R., Flemming, H., Gerhardt, A., Gotzen, K., Heinz, A., Jiang, P., Karabowicz, R., Koch, S., Kurilla, U., Lehmann, D., Luhning, J., Lynen, U., Orth, H., Peters, K., Rieger, J., Saito, T., Schepers, G., Schmidt, C. J., Schwarz, C., Schwiening, J., Taschner, A., Traxler, M., Voss, B., Wieczorek, P., Abazov, V., Alexeev, G., Arefiev, V. A., Astakhov, V., Barabanov, M. Y., Batyunya, B. V., Dodokhov, V. K., Efremov, A., Fechtchenko, A., Galoyan, A., Golovanov, G., Koshurnikov, E. K., Lobanov, Y. Y., Olshevskiy, A. G., Piskun, A. A., Samartsev, A., Shimanski, S., Skachkov, N. B., Skachkova, A. N., Strokovsky, E. A., Tokmenin, V., Uzhinsky, V., Verkheev, A., Vodopianov, A., Zhuravlev, N. I., Branford, D., Watts, D., Bohm, M., Eyrich, W., Lehmann, A., Miehling, D., Pfaffinger, M., Quin, N., Robison, L., Seth, K., Xiao, T., Bettoni, D., Ali, A., Hamdi, A., Himmelreich, M., Krebs, M., Nakhoul, S., Nerling, F., Belousov, A., Kisel, I., Kozlov, G., Pugach, M., Zyzak, M., Bianchi, N., Gianotti, P., Lucherini, V., Bracco, G., Bettner, Y., Bodenschatz, S., Brinkmann, K. T., Bruck, L., Diehl, S., Dormenev, V., Duren, M., Erlen, T., Fohl, K., Hahn, C., Hayrapetyan, A., Hofmann, J., Kegel, S., Kesselkaul, M., Koseoglu, I., Kripko, A., Kuhn, W., Lange, J. S., Metag, V., Moritz, M., Nanova, M., Novotny, R., Orsich, P., Pereira-de-Lira, J., Peter, M., Sachs, M., Schmidt, M., Schubert, R., Stenzel, H., Straube, M., Strickert, M., Thoring, U., Wasem, T., Wohlfahrt, B., Zaunick, H. G., Tomasi-Gustafsson, E., Glazier, D., Ireland, D., Seitz, B., Deepak, P. N., Kulkarni, A., Kappert, R., Kavatsyuk, M., Loehner, H., Messchendorp, J., Rodin, V., Schakel, P., Vejdani, S., Dutta, K., Kalita, K., Huang, G., Liu, D., Peng, H., Qi, H., Sun, Y., Zhou, X., Kunze, M., Azizi, K., Derichs, A., Dosdall, R., Esmail, W., Gillitzer, A., Goldenbaum, F., Grunwald, D., Jokhovets, L., Kannika, J., Kulessa, P., Orfanitski, S., Perez Andrade, G., Prasuhn, D., Prencipe, E., Putz, J., Ritman, J., Rosenthal, E., Schadmand, S., Schmitz, R., Scholl, A., Sefzick, T., Serdyuk, V., Stockmanns, T., Veretennikov, D., Wintz, P., Wustner, P., Xu, H., Zhou, Y., Cao, X., Hu, Q., Li, Z., Li, H., Liang, Y., Ma, X., Rigato, V., Isaksson, L., Achenbach, P., Aycock, A., Corell, O., Denig, A., Distler, M., Hoek, M., Lauth, W., Leithoff, H. H., Merkel, H., Muller, U., Pochodzalla, J., Schlimme, S., Sfienti, C., Thiel, M., Zambrana, M., Ahmed, S., Bleser, S., Bolting, M., Capozza, L., Dbeyssi, A., Ehret, A., Grasemann, P., Klasen, R., Kliemt, R., Maas, F., Maldaner, S., Morales Morales, C., Motzko, C., Noll, O., Pfluger, S., Rodriguez Pineiro, D., Schupp, F., Steinen, M., Wolff, S., Zimmermann, I., Fedorov, A., Kazlou, D., Korzhik, M., Missevitch, O., Balashoff, A., Boukharov, A., Malyshev, O., Balanutsa, P., Chernetsky, V., Demekhin, A., Dolgolenko, A., Fedorets, P., Gerasimov, A., Golubev, A., Goryachev, V., Kantsyrev, A., Kirin, D. Y., Kristi, N., Ladygina, E., Luschevskaya, E., Matveev, V. A., Panjushkin, V., Stavinskiy, A. V., Basant, K. N., Kumawat, H., Roy, B., Saxena, A., Yogesh, S., Bonaventura, D., Brand, P., Fritzsch, C., Grieser, S., Hargens, C., Hergemoller, A. K., Hetz, B., Husken, N., Kellers, J., Khoukaz, A., Bumrungkoh, D., Herold, C., Khosonthongkee, K., Kobdaj, C., Limphirat, A., Manasatitpong, K., Nasawad, T., Pongampai, S., Simantathammakul, T., Srisawad, P., Wongprachanukul, N., Yan, Y., Yu, C., Zhang, X., Zhu, W., Blinov, A. E., Kononov, S., Kravchenko, E. A., Antokhin, E., Barnyakov, A. Y., Beloborodov, K., Blinov, V. E., Kuyanov, I. A., Pivovarov, S., Pyata, E., Tikhonov, Y., Kunne, R., Ramstein, B., Hunter, G., Lattery, M., Pace, H., Boca, G., Duda, D., Finger, M., Finger, Jr, M., Kveton, A., Pesek, M., Peskova, M., Prochazka, I., Slunecka, M., Volf, M., Gallus, P., Jary, V., Korchak, O., Marcisovsky, M., Neue, G., Novy, J., Tomasek, L., Tomasek, M., Virius, M., Vrba, V., Abramov, V., Bukreeva, S., Chernichenko, S., Derevschikov, A., Ferapontov, V., Goncharenko, Y., Levin, A., Maslova, E., Melnik, Y., Meschanin, A., Minaev, N., Mochalov, V., Moiseev, V., Morozov, D., Nogach, L., Poslavskiy, S., Ryazantsev, A., Ryzhikov, S., Semenov, P., Shein, I., Uzunian, A., Vasiliev, A., Yakutin, A., Roy, U., Yabsley, B., Belostotski, S., Fedotov, G., Gavrilov, G., Izotov, A., Manaenkov, S., Miklukho, O., Zhdanov, A., Atac, A., Back, T., Cederwall, B., Makonyi, K., Preston, M., Tegner, P. E., Wolbing, D., Gandhi, K., Rai, A. K., Godre, S., Crede, V., Dobbs, S., Eugenio, P., Lersch, D., Calvo, D., De Remigis, P., Filippi, A., Mazza, G., Rivetti, A., Wheadon, R., Bussa, M. P., Spataro, S., Iazzi, F., Lavagno, A., Martin, A., Akram, A., Calen, H., Ikegami Andersson, W., Johansson, T., Kupsc, A., Marciniewski, P., Papenbrock, M., Regina, J., Schonning, K., Wolke, M., Diaz, J., Pothodi Chackara, V., Chlopik, A., Kesik, G., Melnychuk, D., Tarasiuk, J., Wojciechowski, M., Wronka, S., Zwieglinski, B., Amsler, C., Buhler, P., Kratochwil, N., Marton, J., Nalti, W., Steinschaden, D., Widmann, E., Zimmermann, S., Zmeskal, J., Nuclear Energy, and Research unit Nuclear & Hadron Physics

Subjects

Nuclear Experiment

Abstract

The antiproton experiment PANDA at FAIR is designed to bring hadron physics to a new level in terms of scope, precision and accuracy. In this work, its unique capability for studies of hyperons is outlined. We discuss ground-state hyperons as diagnostic tools to study non-perturbative aspects of the strong interaction, and fundamental symmetries. New simulation studies have been carried out for two benchmark hyperon-antihyperon production channels: p¯ p→ Λ¯ Λ and p¯ p→ Ξ¯ +Ξ-. The results, presented in detail in this paper, show that hyperon-antihyperon pairs from these reactions can be exclusively reconstructed with high efficiency and very low background contamination. In addition, the polarisation and spin correlations have been studied, exploiting the weak, self-analysing decay of hyperons and antihyperons. Two independent approaches to the finite efficiency have been applied and evaluated: one standard multidimensional efficiency correction approach, and one efficiency independent approach. The applicability of the latter was thoroughly evaluated for all channels, beam momenta and observables. The standard method yields good results in all cases, and shows that spin observables can be studied with high precision and accuracy already in the first phase of data taking with PANDA.

Published

2021

36. PANDA Phase One

Author

Barucca, G., primary, Davì, F., additional, Lancioni, G., additional, Mengucci, P., additional, Montalto, L., additional, Natali, P. P., additional, Paone, N., additional, Rinaldi, D., additional, Scalise, L., additional, Krusche, B., additional, Steinacher, M., additional, Liu, Z., additional, Liu, C., additional, Liu, B., additional, Shen, X., additional, Sun, S., additional, Zhao, G., additional, Zhao, J., additional, Albrecht, M., additional, Alkakhi, W., additional, Bökelmann, S., additional, Coen, S., additional, Feldbauer, F., additional, Fink, M., additional, Frech, J., additional, Freudenreich, V., additional, Fritsch, M., additional, Grochowski, J., additional, Hagdorn, R., additional, Heinsius, F. H., additional, Held, T., additional, Holtmann, T., additional, Keshk, I., additional, Koch, H., additional, Kopf, B., additional, Kümmel, M., additional, Küßner, M., additional, Li, J., additional, Linzen, L., additional, Maldaner, S., additional, Oppotsch, J., additional, Pankonin, S., additional, Pelizäus, M., additional, Pflüger, S., additional, Reher, J., additional, Reicherz, G., additional, Schnier, C., additional, Steinke, M., additional, Triffterer, T., additional, Wenzel, C., additional, Wiedner, U., additional, Denizli, H., additional, Er, N., additional, Keskin, U., additional, Yerlikaya, S., additional, Yilmaz, A., additional, Beck, R., additional, Chauhan, V., additional, Hammann, C., additional, Hartmann, J., additional, Ketzer, B., additional, Müllers, J., additional, Salisbury, B., additional, Schmidt, C., additional, Thoma, U., additional, Urban, M., additional, Bianconi, A., additional, Bragadireanu, M., additional, Pantea, D., additional, Rimjaem, S., additional, Domagala, M., additional, Filo, G., additional, Lisowski, E., additional, Lisowski, F., additional, Michałek, M., additional, Poznański, P., additional, Płazek, J., additional, Korcyl, K., additional, Lebiedowicz, P., additional, Pysz, K., additional, Schäfer, W., additional, Szczurek, A., additional, Firlej, M., additional, Fiutowski, T., additional, Idzik, M., additional, Moron, J., additional, Swientek, K., additional, Terlecki, P., additional, Korcyl, G., additional, Lalik, R., additional, Malige, A., additional, Moskal, P., additional, Nowakowski, K., additional, Przygoda, W., additional, Rathod, N., additional, Salabura, P., additional, Smyrski, J., additional, Augustin, I., additional, Böhm, R., additional, Lehmann, I., additional, Schmitt, L., additional, Varentsov, V., additional, Al-Turany, M., additional, Belias, A., additional, Deppe, H., additional, Dzhygadlo, R., additional, Flemming, H., additional, Gerhardt, A., additional, Götzen, K., additional, Heinz, A., additional, Jiang, P., additional, Karabowicz, R., additional, Koch, S., additional, Kurilla, U., additional, Lehmann, D., additional, Lühning, J., additional, Lynen, U., additional, Orth, H., additional, Peters, K., additional, Pütz, J., additional, Ritman, J., additional, Schepers, G., additional, Schmidt, C. J., additional, Schwarz, C., additional, Schwiening, J., additional, Täschner, A., additional, Traxler, M., additional, Voss, B., additional, Wieczorek, P., additional, Abazov, V., additional, Alexeev, G., additional, Barabanov, M. Yu., additional, Dodokhov, V. Kh., additional, Efremov, A., additional, Fechtchenko, A., additional, Galoyan, A., additional, Golovanov, G., additional, Koshurnikov, E. K., additional, Lobanov, Y. Yu., additional, Olshevskiy, A. G., additional, Piskun, A. A., additional, Samartsev, A., additional, Shimanski, S., additional, Skachkov, N. B., additional, Skachkova, A. N., additional, Strokovsky, E. A., additional, Tokmenin, V., additional, Uzhinsky, V., additional, Verkheev, A., additional, Vodopianov, A., additional, Zhuravlev, N. I., additional, Watts, D., additional, Böhm, M., additional, Eyrich, W., additional, Lehmann, A., additional, Miehling, D., additional, Pfaffinger, M., additional, Seth, K., additional, Xiao, T., additional, Ali, A., additional, Hamdi, A., additional, Himmelreich, M., additional, Krebs, M., additional, Nakhoul, S., additional, Nerling, F., additional, Gianotti, P., additional, Lucherini, V., additional, Bracco, G., additional, Bodenschatz, S., additional, Brinkmann, K. T., additional, Brück, L., additional, Diehl, S., additional, Dormenev, V., additional, Düren, M., additional, Erlen, T., additional, Hahn, C., additional, Hayrapetyan, A., additional, Hofmann, J., additional, Kegel, S., additional, Khalid, F., additional, Köseoglu, I., additional, Kripko, A., additional, Kühn, W., additional, Metag, V., additional, Moritz, M., additional, Nanova, M., additional, Novotny, R., additional, Orsich, P., additional, Pereira-de-Lira, J., additional, Sachs, M., additional, Schmidt, M., additional, Schubert, R., additional, Strickert, M., additional, Wasem, T., additional, Zaunick, H. G., additional, Tomasi-Gustafsson, E., additional, Glazier, D., additional, Ireland, D., additional, Seitz, B., additional, Kappert, R., additional, Kavatsyuk, M., additional, Loehner, H., additional, Messchendorp, J., additional, Rodin, V., additional, Kalita, K., additional, Huang, G., additional, Liu, D., additional, Peng, H., additional, Qi, H., additional, Sun, Y., additional, Zhou, X., additional, Kunze, M., additional, Azizi, K., additional, Olgun, A. T., additional, Tavukoglu, Z., additional, Derichs, A., additional, Dosdall, R., additional, Esmail, W., additional, Gillitzer, A., additional, Goldenbaum, F., additional, Grunwald, D., additional, Jokhovets, L., additional, Kannika, J., additional, Kulessa, P., additional, Orfanitski, S., additional, Perez-Andrade, G., additional, Prasuhn, D., additional, Prencipe, E., additional, Rosenthal, E., additional, Schadmand, S., additional, Schmitz, R., additional, Scholl, A., additional, Sefzick, T., additional, Serdyuk, V., additional, Stockmanns, T., additional, Veretennikov, D., additional, Wintz, P., additional, Wüstner, P., additional, Xu, H., additional, Zhou, Y., additional, Cao, X., additional, Hu, Q., additional, Liang, Y., additional, Rigato, V., additional, Isaksson, L., additional, Achenbach, P., additional, Corell, O., additional, Denig, A., additional, Distler, M., additional, Hoek, M., additional, Lauth, W., additional, Leithoff, H. H., additional, Merkel, H., additional, Müller, U., additional, Petersen, J., additional, Pochodzalla, J., additional, Schlimme, S., additional, Sfienti, C., additional, Thiel, M., additional, Bleser, S., additional, Bölting, M., additional, Capozza, L., additional, Dbeyssi, A., additional, Ehret, A., additional, Klasen, R., additional, Kliemt, R., additional, Maas, F., additional, Motzko, C., additional, Noll, O., additional, Piñeiro, D. Rodríguez, additional, Schupp, F., additional, Steinen, M., additional, Wolff, S., additional, Zimmermann, I., additional, Kazlou, D., additional, Korzhik, M., additional, Missevitch, O., additional, Balanutsa, P., additional, Chernetsky, V., additional, Demekhin, A., additional, Dolgolenko, A., additional, Fedorets, P., additional, Gerasimov, A., additional, Golubev, A., additional, Kantsyrev, A., additional, Kirin, D. Y., additional, Kristi, N., additional, Ladygina, E., additional, Luschevskaya, E., additional, Matveev, V. A., additional, Panjushkin, V., additional, Stavinskiy, A. V., additional, Balashoff, A., additional, Boukharov, A., additional, Bukharova, M., additional, Malyshev, O., additional, Vishnevsky, E., additional, Bonaventura, D., additional, Brand, P., additional, Hetz, B., additional, Hüsken, N., additional, Kellers, J., additional, Khoukaz, A., additional, Klostermann, D., additional, Mannweiler, C., additional, Vestrick, S., additional, Bumrungkoh, D., additional, Herold, C., additional, Khosonthongkee, K., additional, Kobdaj, C., additional, Limphirat, A., additional, Manasatitpong, K., additional, Nasawad, T., additional, Pongampai, S., additional, Simantathammakul, T., additional, Srisawad, P., additional, Wongprachanukul, N., additional, Yan, Y., additional, Yu, C., additional, Zhang, X., additional, Zhu, W., additional, Antokhin, E., additional, Barnyakov, A. Yu., additional, Beloborodov, K., additional, Blinov, V. E., additional, Kuyanov, I. A., additional, Pivovarov, S., additional, Pyata, E., additional, Tikhonov, Y., additional, Blinov, A. E., additional, Kononov, S., additional, Kravchenko, E. A., additional, Lattery, M., additional, Boca, G., additional, Duda, D., additional, Finger, M., additional, Kveton, A., additional, Prochazka, I., additional, Slunecka, M., additional, Volf, M., additional, Jary, V., additional, Korchak, O., additional, Marcisovsky, M., additional, Neue, G., additional, Novy, J., additional, Tomasek, L., additional, Tomasek, M., additional, Virius, M., additional, Vrba, V., additional, Abramov, V., additional, Bukreeva, S., additional, Chernichenko, S., additional, Derevschikov, A., additional, Ferapontov, V., additional, Goncharenko, Y., additional, Levin, A., additional, Maslova, E., additional, Melnik, Y., additional, Meschanin, A., additional, Minaev, N., additional, Mochalov, V., additional, Moiseev, V., additional, Morozov, D., additional, Nogach, L., additional, Poslavskiy, S., additional, Ryazantsev, A., additional, Ryzhikov, S., additional, Semenov, P., additional, Shein, I., additional, Uzunian, A., additional, Vasiliev, A., additional, Yakutin, A., additional, Belostotski, S., additional, Fedotov, G., additional, Izotov, A., additional, Manaenkov, S., additional, Miklukho, O., additional, Cederwall, B., additional, Preston, M., additional, Tegner, P. E., additional, Wölbing, D., additional, Gandhi, K., additional, Rai, A. K., additional, Godre, S., additional, Crede, V., additional, Dobbs, S., additional, Eugenio, P., additional, Bussa, M. P., additional, Spataro, S., additional, Calvo, D., additional, De Remigis, P., additional, Filippi, A., additional, Mazza, G., additional, Wheadon, R., additional, Iazzi, F., additional, Lavagno, A., additional, Akram, A., additional, Calen, H., additional, Andersson, W. Ikegami, additional, Johansson, T., additional, Kupsc, A., additional, Marciniewski, P., additional, Papenbrock, M., additional, Regina, J., additional, Rieger, J., additional, Schönning, K., additional, Wolke, M., additional, Chlopik, A., additional, Kesik, G., additional, Melnychuk, D., additional, Tarasiuk, J., additional, Wojciechowski, M., additional, Wronka, S., additional, Zwieglinski, B., additional, Amsler, C., additional, Bühler, P., additional, Marton, J., additional, Zimmermann, S., additional, Fischer, C. S., additional, Haidenbauer, J., additional, Hanhart, C., additional, Lutz, M. F. M., additional, and Ryan, Sinéad M., additional

Published

2021

37. Study of excited Ξ baryons with the P¯ ANDA detector

Author

Barucca, G., Davì, F., Lancioni, G., Mengucci, P., Montalto, L., Natali, P. P., Paone, N., Rinaldi, D., Scalise, L., Krusche, B., Steinacher, M., Liu, Z., Liu, C., Liu, B., Shen, X., Sun, S., Zhao, G., Zhao, J., Albrecht, M., Alkakhi, W., Bökelmann, S., Coen, S., Feldbauer, F., Fink, M., Frech, J., Freudenreich, V., Fritsch, M., Grochowski, J., Hagdorn, R., Heinsius, F. H., Held, T., Holtmann, T., Keshk, I., Koch, H., Kopf, B., Kümmel, M., Küßner, M., Li, J., Linzen, L., Maldaner, S., Oppotsch, J., Pankonin, S., Pelizä, M., Pflüger, S., Reher, J., Reicherz, G., Schnier, C., Steinke, M., Triffterer, T., Wenzel, C., Wiedner, U., Denizli, H., Er, N., Keskin, U., Yerlikaya, S., Yilmaz, A., Beck, R., Chauhan, V., Hammann, C., Hartmann, J., Ketzer, B., Müllers, J., Salisbury, B., Schmidt, C., Thoma, U., Urban, M., Bianconi, A., Bragadireanu, M., Pantea, D., Domagala, M., Filo, G., Lisowski, E., Lisowski, F., Michałek, M., Poznański, P., Płażek, J., Korcyl, K., Lebiedowicz, P., Pysz, K., Schäfer, W., Szczurek, A., Firlej, M., Fiutowski, T., Idzik, M., Moron, J., Swientek, K., Terlecki, P., Korcyl, G., Lalik, R., Malige, A., Moskal, P., Nowakowski, K., Przygoda, W., Rathod, N., Salabura, P., Smyrski, J., Augustin, I., Böhm, R., Lehmann, I., Schmitt, L., Varentsov, V., Al-Turany, M., Belias, A., Deppe, H., Dzhygadlo, R., Flemming, H., Gerhardt, A., Götzen, K., Heinz, A., Jiang, P., Karabowicz, R., Koch, S., Kurilla, U., Lehmann, D., Lühning, J., Lynen, U., Orth, H., Peters, K., Schepers, G., Schmidt, C. J., Schwarz, C., Schwiening, J., Täschner, A., Traxler, M., Voss, B., Wieczorek, P., Abazov, V., Alexeev, G., Barabanov, M. Yu., Dodokhov, V. Kh., Efremov, A., Fechtchenko, A., Galoyan, A., Golovanov, G., Koshurnikov, E. K., Lobanov, Y. Yu., Olshevskiy, A. G., Piskun, A. A., Samartsev, A., Shimanski, S., Skachkov, N. B., Skachkova, A. N., Strokovsky, E. A., Tokmenin, V., Uzhinsky, V., Verkheev, A., Vodopianov, A., Zhuravlev, N. I., Watts, D., Böhm, M., Eyrich, W., Lehmann, A., Miehling, D., Pfaffinger, M., Seth, K., Xiao, T., Ali, A., Hamdi, A., Himmelreich, M., Krebs, M., Nakhoul, S., Nerling, F., Gianotti, P., Lucherini, V., Bracco, G., Bodenschatz, S., Brinkmann, K. T., Brück, L., Diehl, S., Dormenev, V., Düren, M., Erlen, T., Hahn, C., Hayrapetyan, A., Hofmann, J., Kegel, S., Khalid, F., Köseoglu, I., Kripko, A., Kühn, W., Metag, V., Moritz, M., Nanova, M., Novotny, R., Orsich, P., Pereira-de-Lira, J., Sachs, M., Schmidt, M., Schubert, R., Strickert, M., Wasem, T., Zaunick, H. G., Tomasi-Gustafsson, E., Glazier, D., Ireland, D., Seitz, B., Kappert, R., Kavatsyuk, M., Loehner, H., Messchendorp, J., Rodin, V., Kalita, K., Huang, G., Liu, D., Peng, H., Qi, H., Sun, Y., Zhou, X., Kunze, M., Azizi, K., Olgun, A. T., Tavukoglu, Z., Derichs, A., Dosdall, R., Esmail, W., Gillitzer, A., Goldenbaum, F., Grunwald, D., Jokhovets, L., Kannika, J., Kulessa, P., Orfanitski, S., Pérez-Andrade, G., Prasuhn, D., Prencipe, E., Pütz, J., Ritman, J., Rosenthal, E., Schadmand, S., Schmitz, R., Scholl, A., Sefzick, T., Serdyuk, V., Stockmanns, T., Veretennikov, D., Wintz, P., Wüstner, P., Xu, H., Zhou, Y., Cao, X., Hu, Q., Liang, Y., Rigato, V., Isaksson, L., Achenbach, P., Corell, O., Denig, A., Distler, M., Hoek, M., Lauth, W., Leithoff, H. H., Merkel, H., Müller, U., Petersen, J., Pochodzalla, J., Schlimme, S., Sfienti, C., Thiel, M., Bleser, S., Bölting, M., Capozza, L., Dbeyssi, A., Ehret, A., Klasen, R., Kliemt, R., Maas, F., Motzko, C., Noll, O., Rodríguez Piñeiro, D., Schupp, F., Steinen, M., Wolff, S., Zimmermann, I., Kazlou, D., Korzhik, M., Missevitch, O., Balanutsa, P., Chernetsky, V., Demekhin, A., Dolgolenko, A., Fedorets, P., Gerasimov, A., Golubev, A., Kantsyrev, A., Kirin, D. Y., Kristi, N., Ladygina, E., Luschevskaya, E., Matveev, V. A., Panjushkin, V., Stavinskiy, A. V., Balashoff, A., Boukharov, A., Bukharova, M., Malyshev, O., Vishnevsky, E., Bonaventura, D., Brand, P., Hetz, B., Hüsken, N., Kellers, J., Khoukaz, A., Klostermann, D., Mannweiler, C., Vestrick, S., Bumrungkoh, D., Herold, C., Khosonthongkee, K., Kobdaj, C., Limphirat, A., Manasatitpong, K., Nasawad, T., Pongampai, S., Simantathammakul, T., Srisawad, P., Wongprachanukul, N., Yan, Y., Yu, C., Zhang, X., Zhu, W., Antokhin, E., Barnyakov, A. Yu., Beloborodov, K., Blinov, V. E., Kuyanov, I. A., Pivovarov, S., Pyata, E., Tikhonov, Y., Blinov, A. E., Kononov, S., Kravchenko, E. A., Lattery, M., Boca, G., Duda, D., Finger, M., Finger, Jr., M., Kveton, A., Pesek, M., Peskova, M., Prochazka, I., Slunecka, M., Volf, M., Gallus, P., Jary, V., Korchak, O., Marcisovsky, M., Neue, G., Novy, J., Tomasek, L., Tomasek, M., Virius, M., Vrba, V., Abramov, V., Bukreeva, S., Chernichenko, S., Derevschikov, A., Ferapontov, V., Goncharenko, Y., Levin, A., Maslova, E., Melnik, Y., Meschanin, A., Minaev, N., Mochalov, V., Moiseev, V., Morozov, D., Nogach, L., Poslavskiy, S., Ryazantsev, A., Ryzhikov, S., Semenov, P., Shein, I., Uzunian, A., Vasiliev, A., Yakutin, A., Belostotski, S., Fedotov, G., Izotov, A., Manaenkov, S., Miklukho, O., Preston, M., Tegner, P. E., Wölbing, D., Cederwall, B., Gandhi, K., Rai, A. K., Godre, S., Crede, V., Dobbs, S., Eugenio, P., Calvo, D., De Remigis, P., Filippi, A., Mazza, G., Wheadon, R., Iazzi, F., Lavagno, A., Bussa, M. P., Spataro, S., Akram, A., Calen, H., Ikegami Andersson, W., Johansson, T., Kupsc, A., Marciniewski, P., Papenbrock, M., Regina, J., Rieger, J., Schönning, K., Wolke, M., Chlopik, A., Kesik, G., Melnychuk, D., Tarasiuk, J., Wronka, S., Zwieglinski, B., Amsler, C., Bühler, P., Marton, J., Zimmermann, S., Nuclear Energy, KVI - Center for Advanced Radiation Technology, and Research unit Nuclear & Hadron Physics

Abstract

The study of baryon excitation spectra provides insight into the inner structure of baryons. So far, most of the world-wide efforts have been directed towards N∗ and Δ spectroscopy. Nevertheless, the study of the double and triple strange baryon spectrum provides independent information to the N∗ and Δ spectra. The future antiproton experiment P¯ANDA will provide direct access to final states containing a Ξ¯ Ξ pair, for which production cross sections up to μb are expected in p¯p reactions. With a luminosity of L= 10 31 cm- 2 s- 1 in the first phase of the experiment, the expected cross sections correspond to a production rate of ∼106events/day. With a nearly 4 π detector acceptance, P¯ANDA will thus be a hyperon factory. In this study, reactions of the type p¯p → Ξ¯ +Ξ∗ - as well as p¯p → Ξ¯ ∗ +Ξ- with various decay modes are investigated. For the exclusive reconstruction of the signal events a full decay tree fit is used, resulting in reconstruction efficiencies between 3 and 5%. This allows high statistics data to be collected within a few weeks of data taking.

Published

2021

38. Feasibility studies for the measurement of time-like proton electromagnetic form factors from (p)over-barp -> mu(+)mu(-) at PANDA at FAIR

Author

Barucca, G., Davi, F., Lancioni, G., Mengucci, P., Montalto, L., Natali, P. P., Zmeskal, J., and 0-Belirlenecek

Subjects

[No Keywords]

Abstract

Kozela, Adam/0000-0002-3286-4933; Wronka, Slawomir/0000-0003-3277-138X; Mochalov, Vasilii/0000-0002-5752-5807; Filo, Grzegorz/0000-0003-0848-6124; Szczurek, Antoni/0000-0001-5247-8442; Kantsyrev, Alexey V/0000-0001-5301-5597; Widmann, Eberhard/0000-0003-0486-6023; Yilmaz, Ali/0000-0001-5963-8306; Barnyakov, Alexander/0000-0002-8556-6622; Bracco, Gianangelo/0000-0002-0055-5802; Moskal, Pawel/0000-0002-4229-3548; Davi, Fabrizio/0000-0002-8146-7715; Novotny, Radek/0000-0002-1630-694X; Schmidt, Mustafa/0000-0002-4467-2461 This paper reports on Monte Carlo simulation results for future measurements of the moduli of time-like proton electromagnetic form factors, vertical bar G(E)vertical bar and vertical bar G(M)vertical bar, using the (p) over barp -> mu(+)mu(-) reaction at PANDA (FAIR). The electromagnetic form factors are fundamental quantities parameterizing the electric and magnetic structure of hadrons. This work estimates the statistical and total accuracy with which the form factors can be measured at PANDA, using an analysis of simulated data within the PandaRoot software framework. The most crucial background channel is (p) over barp -> pi(+)pi(-), due to the very similar behavior of muons and pions in the detector. The suppression factors are evaluated for this and all other relevant background channels at different values of antiproton beam momentum. The signal/background separation is based on a multivariate analysis, using the Boosted Decision Trees method. An expected background subtraction is included in this study, based on realistic angular distributions of the background contribution. Systematic uncertainties are considered and the relative total uncertainties of the form factor measurements are presented. Science and Technology Facilities Council (STFC), British funding agency, Great BritainUK Research & Innovation (UKRI)Science & Technology Facilities Council (STFC); Bhabha Atomic Research Centre (BARC), India; Indian Institute of Technology Bombay, India; Bundesministerium fur Bildung und Forschung (BMBF), GermanyFederal Ministry of Education & Research (BMBF); Carl-Zeiss-Stiftung, Mainz, Germany [21-0563-2.8/122/1, 21-0563-2.8/131/1]; Center for Advanced Radiation Technology (KVI-CART), Groningen, Netherlands; CNRS/IN2P3, FranceCentre National de la Recherche Scientifique (CNRS); Universite Paris-Sud, France; Czech Ministry (MEYS), Germany [LM2015049, CZ.02.1.01/0.0/0.0/16, 013/0001677]; Deutsche Forschungsgemeinschaft (DFG), GermanyGerman Research Foundation (DFG); Deutscher Akademischer Austauschdienst (DAAD), GermanyDeutscher Akademischer Austausch Dienst (DAAD); Forschungszentrum Julich, Germany; European Union's Horizon 2020 research and innovation program [824093]; Gesellschaft fur Schwerionenforschung GmbH (GSI), Darmstadt, GermanyHelmholtz Association; Helmholtz-Gemeinschaft Deutscher Forschungszentren (HGF), Germany; INTAS, European Commission funding; Institute of High Energy Physics (IHEP), Beijing, China; Chinese Academy of Sciences, Beijing, ChinaChinese Academy of Sciences; Istituto Nazionale di Fisica Nucleare (INFN), ItalyIstituto Nazionale di Fisica Nucleare (INFN); Ministerio de Educacion y Ciencia (MEC)Spanish GovernmentEuropean Commission [FPA2006-12120-C03-02]; Polish Ministry of Science and Higher Education (MNiSW), PolandMinistry of Science and Higher Education, Poland [2593/7, PR UE/2012/2]; National Science Centre (NCN), PolandNational Science Centre, Poland [DEC-2013/09/N/ST2/02180]; State Atomic Energy Corporation Rosatom, National Research Center Kurchatov Institute, Russia; Schweizerischer Nationalfonds zur Forderung der Wissenschaftlichen Forschung (SNF), Swiss; Stefan Meyer Institut fur Subatomare Physik, Austria; osterreichische Akademie der Wissenschaften, Wien, Austria; Swedish Research Council, SwedenSwedish Research Council; Knut and Alice Wallenberg Foundation, SwedenKnut & Alice Wallenberg Foundation; Scientific and Technological Research Council of Turkey (TUBITAK)Turkiye Bilimsel ve Teknolojik Arastirma Kurumu (TUBITAK) [119F094] We acknowledge financial support from the Science and Technology Facilities Council (STFC), British funding agency, Great Britain; the Bhabha Atomic Research Centre (BARC) and the Indian Institute of Technology Bombay, India; the Bundesministerium fur Bildung und Forschung (BMBF), Germany; the Carl-Zeiss-Stiftung 21-0563-2.8/122/1 and 21-0563-2.8/131/1, Mainz, Germany; the Center for Advanced Radiation Technology (KVI-CART), Groningen, Netherlands; the CNRS/IN2P3 and the Universite Paris-Sud, France; the Czech Ministry (MEYS) Grants LM2015049, CZ.02.1.01/0.0/0.0/16 and 013/0001677, the Deutsche Forschungsgemeinschaft (DFG), Germany; the Deutscher Akademischer Austauschdienst (DAAD), Germany; the Forschungszentrum Julich, Germany; the European Union's Horizon 2020 research and innovation program under grant agreement No 824093; the Gesellschaft fur Schwerionenforschung GmbH (GSI), Darmstadt, Germany; the Helmholtz-Gemeinschaft Deutscher Forschungszentren (HGF), Germany; the INTAS, European Commission funding; the Institute of High Energy Physics (IHEP) and the Chinese Academy of Sciences, Beijing, China; the Istituto Nazionale di Fisica Nucleare (INFN), Italy; the Ministerio de Educacion y Ciencia (MEC) under Grant FPA2006-12120-C03-02; the Polish Ministry of Science and Higher Education (MNiSW) Grant No. 2593/7, PR UE/2012/2, and the National Science Centre (NCN) DEC-2013/09/N/ST2/02180, Poland; the State Atomic Energy Corporation Rosatom, National Research Center Kurchatov Institute, Russia; the Schweizerischer Nationalfonds zur Forderung der Wissenschaftlichen Forschung (SNF), Swiss; the Stefan Meyer Institut fur Subatomare Physik and the osterreichische Akademie der Wissenschaften, Wien, Austria; the Swedish Research Council and the Knut and Alice Wallenberg Foundation, Sweden; the Scientific and Technological Research Council of Turkey (TUBITAK) under Grant No. 119F094.

Published

2021

39. Study of excited $\Xi$ baryons with the $\bar{P}$ANDA detector

Author

Barucca, G., Davì, F., Lancioni, G., Mengucci, P., Montalto, L., Natali, P. P., Paone, N., Rinaldi, D., Scalise, L., Krusche, B., Steinacher, M., Liu, Z., Liu, C., Liu, B., Shen, X., Sun, S., Zhao, G., Zhao, J., Albrecht, M., Alkakhi, W., Bökelmann, S., Coen, S., Feldbauer, F., Fink, M., Frech, J., Freudenreich, V., Fritsch, M., Grochowski, J., Hagdorn, R., Heinsius, F. H., Held, T., Holtmann, T., Keshk, I., Koch, H., Kopf, B., Kümmel, M., Küßner, M., Li, J., Linzen, L., Maldaner, S., Oppotsch, J., Pankonin, S., Pelizä, M., Pflüger, S., Reher, J., Reicherz, G., Schnier, C., Steinke, M., Triffterer, T., Wenzel, C., Wiedner, U., Denizli, H., Er, N., Keskin, U., Yerlikaya, S., Yilmaz, A., Beck, R., Chauhan, V., Hammann, C., Hartmann, J., Ketzer, B., Müllers, J., Salisbury, B., Schmidt, C., Thoma, U., Urban, M., Bianconi, A., Bragadireanu, M., Pantea, D., Domagala, M., Filo, G., Lisowski, E., Lisowski, F., Michałek, M., Poznański, P., Płażek, J., Korcyl, K., Lebiedowicz, P., Pysz, K., Schäfer, W., Szczurek, A., Firlej, M., Fiutowski, T., Idzik, M., Moron, J., Swientek, K., Terlecki, P., Korcyl, Grzegorz, Lalik, Rafał, Malige, Akshay, Moskal, Paweł, Nowakowski, Krzysztof, Przygoda, Witold, Rathod, Narendra, Salabura, Piotr, Smyrski, Jerzy, Augustin, I., Böhm, R., Lehmann, I., Schmitt, L., Varentsov, V., Al-Turany, M., Belias, A., Deppe, H., Dzhygadlo, R., Flemming, H., Gerhardt, A., Götzen, K., Heinz, A., Jiang, P., Karabowicz, R., Koch, S., Kurilla, U., Lehmann, D., Lühning, J., Lynen, U., Orth, H., Peters, K., Schepers, G., Schmidt, C. J., Schwarz, C., Schwiening, J., Täschner, A., Traxler, M., Voss, B., Wieczorek, P., Abazov, V., Alexeev, G., Barabanov, M. Yu., Dodokhov, V. Kh., Efremov, A., Fechtchenko, A., Galoyan, A., Golovanov, G., Koshurnikov, E. K., Lobanov, Y. Yu., Olshevskiy, A. G., Piskun, A. A., Samartsev, A., Shimanski, S., Skachkov, N. B., Skachkova, A. N., Strokovsky, E. A., Tokmenin, V., Uzhinsky, V., Verkheev, A., Vodopianov, A., Zhuravlev, N. I., Watts, D., Böhm, M., Eyrich, W., Lehmann, A., Miehling, D., Pfaffinger, M., Seth, K., Xiao, T., Ali, A., Hamdi, A., Himmelreich, M., Krebs, M., Nakhoul, S., Nerling, F., Gianotti, P., Lucherini, V., Bracco, G., Bodenschatz, S., Brinkmann, K. T., Brück, L., Diehl, S., Dormenev, V., Düren, M., Erlen, T., Hahn, C., Hayrapetyan, A., Hofmann, J., Kegel, S., Khalid, F., Köseoglu, I., Kripko, A., Kühn, W., Metag, V., Moritz, M., Nanova, M., Novotny, R., Orsich, P., Pereira-de-Lira, J., Sachs, M., Schmidt, M., Schubert, R., Strickert, M., Wasem, T., Zaunick, H. G., Tomasi-Gustafsson, E., Glazier, D., Ireland, D., Seitz, B., Kappert, R., Kavatsyuk, M., Loehner, H., Messchendorp, J., Rodin, V., Kalita, K., Huang, G., Liu, D., Peng, H., Qi, H., Sun, Y., Zhou, X., Kunze, M., Azizi, K., Olgun, A. T., Tavukoglu, Z., Derichs, A., Dosdall, R., Esmail, W., Gillitzer, A., Goldenbaum, F., Grunwald, D., Jokhovets, L., Kannika, J., Kulessa, P., Orfanitski, S., Pérez-Andrade, G., Prasuhn, D., Prencipe, E., Pütz, J., Ritman, J., Rosenthal, E., Schadmand, S., Schmitz, R., Scholl, A., Sefzick, T., Serdyuk, V., Stockmanns, T., Veretennikov, D., Wintz, P., Wüstner, P., Xu, H., Zhou, Y., Cao, X., Hu, Q., Liang, Y., Rigato, V., Isaksson, L., Achenbach, P., Corell, O., Denig, A., Distler, M., Hoek, M., Lauth, W., Leithoff, H. H., Merkel, H., Müller, U., Petersen, J., Pochodzalla, J., Schlimme, S., Sfienti, C., Thiel, M., Bleser, S., Bölting, M., Capozza, L., Dbeyssi, A., Ehret, A., Klasen, R., Kliemt, R., Maas, F., Motzko, C., Noll, O., Piñeiro, D. Rodríguez, Schupp, F., Steinen, M., Wolff, S., Zimmermann, I., Kazlou, D., Korzhik, M., Missevitch, O., Balanutsa, P., Chernetsky, V., Demekhin, A., Dolgolenko, A., Fedorets, P., Gerasimov, A., Golubev, A., Kantsyrev, A., Kirin, D. Y., Kristi, N., Ladygina, E., Luschevskaya, E., Matveev, V. A., Panjushkin, V., Stavinskiy, A. V., Balashoff, A., Boukharov, A., Bukharova, M., Malyshev, O., Vishnevsky, E., Bonaventura, D., Brand, P., Hetz, B., Hüsken, N., Kellers, J., Khoukaz, A., Klostermann, D., Mannweiler, C., Vestrick, S., Bumrungkoh, D., Herold, C., Khosonthongkee, K., Kobdaj, C., Limphirat, A., Manasatitpong, K., Nasawad, T., Pongampai, S., Simantathammakul, T., Srisawad, P., Wongprachanukul, N., Yan, Y., Yu, C., Zhang, X., Zhu, W., Antokhin, E., Barnyakov, A.Y., Beloborodov, K., Blinov, V.E., Kuyanov, I.A., Pivovarov, S., Pyata, E., Tikhonov, Y., Blinov, A.E., Kononov, S., Kravchenko, E.A., Lattery, M., Boca, G., Duda, D., Finger, M., Finger, Jr, M., Kveton, A., Pesek, M., Peskova, M., Prochazka, I., Slunecka, M., Volf, M., Gallus, P., Jary, V., Korchak, O., Marcisovsky, M., Neue, G., Novy, J., Tomasek, L., Tomasek, M., Virius, M., Vrba, V., Abramov, V., Bukreeva, S., Chernichenko, S., Derevschikov, A., Ferapontov, V., Goncharenko, Y., Levin, A., Maslova, E., Melnik, Y., Meschanin, A., Minaev, N., Mochalov, V., Moiseev, V., Morozov, D., Nogach, L., Poslavskiy, S., Ryazantsev, A., Ryzhikov, S., Semenov, P., Shein, I., Uzunian, A., Vasiliev, A., Yakutin, A., Belostotski, S., Fedotov, G., Izotov, A., Manaenkov, S., Miklukho, O., Preston, M., Tegner, P.E., Wölbing, D., Cederwall, B., Gandhi, K., Rai, A.K., Godre, S., Crede, V., Dobbs, S., Eugenio, P., Calvo, D., De Remigis, P., Filippi, A., Mazza, G., Wheadon, R., Iazzi, F., Lavagno, A., Bussa, M.P., Spataro, S., Akram, A., Calen, H., Ikegami Andersson, W., Johansson, T., Kupsc, A., Marciniewski, P., Papenbrock, M., Regina, J., Rieger, J., Schönning, K., Wolke, M., Chlopik, A., Kesik, G., Melnychuk, D., Tarasiuk, J., Wronka, S., Zwieglinski, B., Amsler, C., Bühler, P., Marton, J., and Zimmermann, S.

Published

2021

40. Feasibility studies for the measurement of time-like proton electromagnetic form factors from $\bar{p}p \rightarrow \mu ^+\mu ^-$ at $\overline{\text {P}}\text {ANDA}$ at FAIR

Author

Barucca, G., Davì, F., Lancioni, G., Mengucci, P., Montalto, L., Natali, P.P., Paone, N., Rinaldi, D., Scalise, L., Erni, W., Krusche, B., Steinacher, M., Walford, N., Cao, N., Liu, C., Liu, B., Shen, X., Sun, S., Tao, J., Xiong, X.A., Zhao, Gang, Zhao, J., Albrecht, M., Alkakhi, W., Bökelmann, S., Feldbauer, F., Fink, M., Frech, J., Freudenreich, V., Fritsch, M., Hagdorn, R., Heinsius, F.H., Held, T., Holtmann, T., Keshk, I., Koch, H., Kopf, B., Kuhlmann, M., Kümmel, M., Küssner, M., Mustafa, A., Pelizäus, M., Pitka, A., Reher, J., Reicherz, G., Richter, M., Schnier, C., Sohl, L., Steinke, M., Triffterer, T., Wenzel, C., Wiedner, U., Denizli, H., Er, N., Keskin, U., Olgun, A.T., Yerlikaya, S., Yilmaz, A., Beck, R., Hammann, C., Hartmann, J., Ketzer, B., Müllers, J., Rossbach, M., Salisbury, B., Thoma, U., Urban, M., Bianconi, A., Bragadireanu, M., Pantea, D., Domagala, M., Filo, G., Lisowski, E., Lisowski, F., Michałek, M., Poznański, P., Płażek, J., Korcyl, K., Kozela, A., Lebiedowicz, P., Pysz, K., Schäfer, W., Szczurek, A., Fiutowski, T., Idzik, M., Swientek, K., Terlecki, P., Korcyl, G., Lalik, R., Malige, A., Moskal, P., Nowakowski, K., Przygoda, W., Rathod, N., Rudy, Z., Salabura, P., Smyrski, J., Augustin, I., Böhm, R., Lehmann, I., Schmitt, L., Varentsov, V., Al-Turany, M., Belias, A., Deppe, H., Dzhygadlo, R., Flemming, H., Gerhardt, A., Götzen, K., Heinz, A., Jiang, P., Karabowicz, R., Koch, S., Kurilla, U., Lehmann, D., Lühning, J., Lynen, U., Orth, H., Peters, K., Rieger, J., Saito, T., Schepers, G., Schmidt, C.J., Schwarz, C., Schwiening, J., Täschner, A., Traxler, M., Voss, B., Wieczorek, P., Abazov, V., Alexeev, G., Arefiev, V.A., Astakhov, V., Barabanov, M.Yu., Batyunya, B.V., Dodokhov, V.Kh., Efremov, A., Fechtchenko, A., Galoyan, A., Golovanov, G., Koshurnikov, E.K., Lobanov, Y.Yu., Olshevskiy, A.G., Piskun, A.A., Samartsev, A., Shimanski, S., Skachkov, N.B., Skachkova, A.N., Strokovsky, E.A., Tokmenin, V., Uzhinsky, V., Verkheev, A., Vodopianov, A., Zhuravlev, N.I., Branford, D., Watts, D., Böhm, M., Eyrich, W., Lehmann, A., Miehling, D., Pfaffinger, M., Quin, N., Robison, L., Seth, K., Xiao, T., Bettoni, D., Ali, A., Hamdi, A., Himmelreich, M., Krebs, M., Nakhoul, S., Nerling, F., Belousov, A., Kisel, I., Kozlov, G., Pugach, M., Zyzak, M., Bianchi, N., Gianotti, P., Lucherini, V., Bracco, G., Bettner, Y., Bodenschatz, S., Brinkmann, K.T., Brück, L., Diehl, S., Dormenev, V., Düren, M., Erlen, T., Föhl, K., Hahn, C., Hayrapetyan, A., Hofmann, J., Kegel, S., Kesselkaul, M., Köseoglu, I., Kripko, A., Kühn, W., Lange, J.S., Metag, V., Moritz, M., Nanova, M., Novotny, R., Orsich, P., Pereira-De-Lira, J., Peter, M., Sachs, M., Schmidt, M., Schubert, R., Stenzel, H., Straube, M., Strickert, M., Thöring, U., Wasem, T., Wohlfahrt, B., Zaunick, H.G., Tomasi-Gustafsson, E., Glazier, D., Ireland, D., Seitz, B., Deepak, P.N., Kulkarni, A., Kappert, R., Kavatsyuk, M., Loehner, H., Messchendorp, J., Rodin, V., Schakel, P., Vejdani, S., Dutta, K., Kalita, K., Huang, G., Liu, D., Peng, H., Qi, H., Sun, Y., Zhou, X., Kunze, M., Azizi, K., Bianchi, L., Derichs, A., Dosdall, R., Erven, A., Esmail, W., Gillitzer, A., Goldenbaum, F., Grunwald, D., Jokhovets, L., Kannika, J., Kulessa, P., Lai, A., Orfanitski, S., Andrade, G. Pérez, Prasuhn, D., Prencipe, E., Pütz, J., Ritman, J., Rosenthal, E., Schadmand, S., Schmitz, R., Scholl, A., Sefzick, T., Serdyuk, V., Sterzenbach, G., Stockmanns, T., Veretennikov, D., Wintz, P., Wüstner, P., Xu, H., Zhou, Y., Cao, X., Hu, Q., Li, Z., Li, H., Liang, Y., Ma, X., Rigato, V., Isaksson, L., Achenbach, P., Aycock, A., Corell, O., Denig, A., Distler, M., Hoek, M., Lauth, W., Leithoff, H.H., Liu, Z., Merkel, H., Müller, U., Pochodzalla, J., Schlimme, S., Sfienti, C., Thiel, M., Zambrana, M., Ahmed, S., Bleser, S., Bölting, M., Capozza, L., Dbeyssi, A., Ehret, A., Grasemann, P., Klasen, R., Kliemt, R., Maas, F., Maldaner, S., Morales, C. Morales, Motzko, C., Noll, O., Pflüger, S., Piñeiro, D. Rodríguez, Schupp, F., Steinen, M., Wolff, S., Zimmermann, I., Fedorov, A., Kazlou, D., Korzhik, M., Missevitch, O., Balanutsa, P., Chernetsky, V., Demekhin, A., Dolgolenko, A., Fedorets, P., Gerasimov, A., Golubev, A., Goryachev, V., Kantsyrev, A., Kirin, D.Y., Kotov, A., Kristi, N., Ladygina, E., Luschevskaya, E., Matveev, V.A., Panjushkin, V., Stavinskiy, A.V., Balashoff, A., Boukharov, A., Malyshev, O., Basant, K.N., Kumawat, H., Roy, B., Saxena, A., Yogesh, S., Bonaventura, D., Brand, P., Fritzsch, C., Grieser, S., Hargens, C., Hergemöller, A.K., Hetz, B., Hüsken, N., Kellers, J., Khoukaz, A., Bumrungkoh, D., Herold, C., Khosonthongkee, K., Kobdaj, C., Limphirat, A., Manasatitpong, K., Nasawad, T., Pongampai, S., Simantathammakul, T., Srisawad, P., Wongprachanukul, N., Yan, Y., Yu, C., Zhang, X., Zhu, W., Blinov, A.E., Kononov, S., Kravchenko, E.A., Antokhin, E., Barnyakov, A.Yu., Beloborodov, K., Blinov, V.E., Kuyanov, I.A., Pivovarov, S., Pyata, E., Tikhonov, Y., Kunne, R., Ramstein, B., Hunter, G., Lattery, M., Pace, H., Boca, G., Duda, D., Finger, M., M.Finger, Jr., Kveton, A., Pesek, M., Peskova, M., Prochazka, I., Slunecka, M., Volf, M., Gallus, P., Jary, V., Korchak, O., Marcisovsky, M., Neue, G., Novy, J., Tomasek, L., Tomasek, M., Virius, M., Vrba, V., Abramov, V., Bukreeva, S., Chernichenko, S., Derevschikov, A., Ferapontov, V., Goncharenko, Y., Levin, A., Maslova, E., Melnik, Y., Meschanin, A., Minaev, N., Mochalov, V., Moiseev, V., Morozov, D., Nogach, L., Poslavskiy, S., Ryazantsev, A., Ryzhikov, S., Semenov, P., Shein, I., Uzunian, A., Vasiliev, A., Yakutin, A., Roy, U., Yabsley, B., Belostotski, S., Fedotov, G., Gavrilov, G., Izotov, A., Manaenkov, S., Miklukho, O., Zhdanov, A., Atac, A., Bäck, T., Cederwall, B., Makonyi, K., Preston, M., Tegner, P.E., Wölbing, D., Gandhi, K., Rai, A.K., Godre, S., Crede, V., Dobbs, S., Eugenio, P., Lersch, D., Iazzi, F., Lavagno, A., Bussa, M.P., Spataro, S., Calvo, D., de Remigis, P., Filippi, A., Mazza, G., Rivetti, A., Wheadon, R., Martin, A., Akram, A., Calen, H., Andersson, W. Ikegami, Johansson, T., Kupsc, A., Marciniewski, P., Papenbrock, M., Regina, J., Schönning, K., Wolke, M., Diaz, J., Chackara, V. Pothodi, Chlopik, A., Kesik, G., Melnychuk, D., Tarasiuk, J., Wojciechowski, M., Wronka, S., Zwieglinski, B., Amsler, C., Bühler, P., Kratochwil, N., Marton, J., Nalti, W., Steinschaden, D., Suzuki, K., Widmann, E., Zimmermann, S., Zmeskal, J., Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, Institut de Physique Nucléaire d'Orsay (IPNO), Université Paris-Sud - Paris 11 (UP11)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Centre National de la Recherche Scientifique (CNRS), PANDA, and Centre National de la Recherche Scientifique (CNRS)-Institut National de Physique Nucléaire et de Physique des Particules du CNRS (IN2P3)-Université Paris-Sud - Paris 11 (UP11)

Subjects

data analysis method, Nuclear and High Energy Physics, Particle physics, Proton, Monte Carlo method, Hadron, +muon%2B+muon%22">p anti-p --> muon+ muon, programming, 01 natural sciences, anti-p p: colliding beams, Momentum, Pion, statistical analysis, 0103 physical sciences, anti-p p: scattering, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], Nuclear fusion, ddc:530, angular distribution, structure, anti-p: beam, 010306 general physics, Physics, Muon, background, 010308 nuclear & particles physics, PANDA, suppression, form factor: electromagnetic, muon: pair production, p: form factor, beam: momentum, numerical calculations: Monte Carlo, statistical, Bar (unit)

Abstract

The European physical journal / A 57(1), 30 (2021). doi:10.1140/epja/s10050-020-00333-3, Published by Springer, Heidelberg

Published

2021

41. Study of excited Xi baryons with the (P)over-barANDA detector

Author

Barucca, G., Davi, F., Lancioni, G., Mengucci, P., Montalto, L., Natali, P. P., Zimmermann, S., and 0-Belirlenecek

Subjects

[No Keywords]

Abstract

Szczurek, Antoni/0000-0001-5247-8442; Yilmaz, Ali/0000-0001-5963-8306; Mochalov, Vasilii/0000-0002-5752-5807; Davi, Fabrizio/0000-0002-8146-7715 The study of baryon excitation spectra provides insight into the inner structure of baryons. So far, most of the world-wide efforts have been directed towards N * and Delta spectroscopy. Nevertheless, the study of the double and triple strange baryon spectrum provides independent information to the N * and Delta spectra. The future antiproton experiment (P) over bar ANDA will provide direct access to final states containing a (Xi) over bar Xi pair, for which production cross sections up to mu b are expected in (p) over barp reactions. With a luminosity of L = 10(31) cm(-2) s(-1) in the first phase of the experiment, the expected cross sections correspond to a production rate of similar to 10(6) events/day. With a nearly 4 pi detector acceptance, (P) over bar ANDA will thus be a hyperon factory. In this study, reactions of the type (p) over barp -> (Xi) over bar (+)Xi*(-) as well as (p) over barp -> (Xi) over bar*(+)Xi(-) with various decay modes are investigated. For the exclusive reconstruction of the signal events a full decay tree fit is used, resulting in reconstruction efficiencies between 3 and 5%. This allows high statistics data to be collected within a few weeks of data taking. Bhabha Atomic Research Centre (BARC), India; Indian Institute of Technology Bombay, India; Bundesministerium fur Bildung und Forschung (BMBF), GermanyFederal Ministry of Education & Research (BMBF); Carl-Zeiss-Stiftung, Mainz, Germany [21-0563-2.8/122/1, 21-0563-2.8/131/1]; Center for Advanced Radiation Technology (KVI-CART), Groningen, Netherlands; Universite Paris-Sud, France; Czech Ministry (MEYS), Czech Republic [LM2015049, CZ.02.1.01/0.0/0.0/16, 013/0001677]; Deutscher Akademischer Austauschdienst (DAAD), GermanyDeutscher Akademischer Austausch Dienst (DAAD); Deutsche Forschungsgemeinschaft (DFG), GermanyGerman Research Foundation (DFG); European UnionEuropean Commission [824093]; Forschungszentrum Julich, Germany; Gesellschaft fur Schwerionenforschung GmbH (GSI), Darmstadt, GermanyHelmholtz Association; Helmholtz-Gemeinschaft Deutscher Forschungszentren (HGF), Germany; INTAS, European Commission funding; Chinese Academy of Sciences, Beijing, ChinaChinese Academy of Sciences; Istituto Nazionale di Fisica Nucleare (INFN), ItalyIstituto Nazionale di Fisica Nucleare (INFN); Ministerio de Educacion y Ciencia (MEC), SpainSpanish Government [FPA2006-12120-C03-02]; Polish Ministry of Science and Higher Education (MNiSW)Ministry of Science and Higher Education, Poland [2593/7, PR UE/2012/2]; National Science Centre (NCN), PolandNational Science Centre, Poland [DEC-2013/09/N/ST2/02180]; State Atomic Energy Corporation Rosatom, Russia; National Research Center Kurchatov Institute, Russia; Schweizerischer Nationalfonds zur Forderung der Wissenschaftlichen Forschung (SNF), Switzerland; Science and Technology Facilities Council (STFC), British funding agency, Great BritainUK Research & Innovation (UKRI)Science & Technology Facilities Council (STFC); Scientific and Technological Research Council of Turkey (TUBITAK), TurkeyTurkiye Bilimsel ve Teknolojik Arastirma Kurumu (TUBITAK) [119F094]; Osterreichische Akademie der Wissenschaften, Wien, Austria; Knut and Alice Wallenberg Foundation, SwedenKnut & Alice Wallenberg Foundation; CNRS/IN2P3, FranceCentre National de la Recherche Scientifique (CNRS); Institute of High Energy Physics (IHEP), Beijing, China; Stefan Meyer Institut fur Subatomare Physik, Wien, Austria; Swedish Research Council, SwedenSwedish Research Council We acknowledge financial support from the Bhabha Atomic Research Centre (BARC) and the Indian Institute of Technology Bombay, India; the Bundesministerium fur Bildung und Forschung (BMBF), Germany; the Carl-Zeiss-Stiftung 21-0563-2.8/122/1 and 21-0563-2.8/131/1, Mainz, Germany; the Center for Advanced Radiation Technology (KVI-CART), Groningen, Netherlands; the CNRS/IN2P3 and the Universite Paris-Sud, France; the Czech Ministry (MEYS) Grants LM2015049, CZ.02.1.01/0.0/0.0/16 and 013/0001677, Czech Republic; the Deutsche Forschungsgemeinschaft (DFG), Germany; the Deutscher Akademischer Austauschdienst (DAAD), Germany; the European Union's Horizon 2020 research and innovation programme under grant agreement No 824093; the Forschungszentrum Julich, Germany; the Gesellschaft fur Schwerionenforschung GmbH (GSI), Darmstadt, Germany; the Helmholtz-Gemeinschaft Deutscher Forschungszentren (HGF), Germany; the INTAS, European Commission funding; the Institute of High Energy Physics (IHEP) and the Chinese Academy of Sciences, Beijing, China; the Istituto Nazionale di Fisica Nucleare (INFN), Italy; the Ministerio de Educacion y Ciencia (MEC) under grant FPA2006-12120-C03-02, Spain; the Polish Ministry of Science and Higher Education (MNiSW) Grant No. 2593/7, PR UE/2012/2, and the National Science Centre (NCN) DEC-2013/09/N/ST2/02180, Poland; the State Atomic Energy Corporation Rosatom, National Research Center Kurchatov Institute, Russia; the Schweizerischer Nationalfonds zur Forderung der Wissenschaftlichen Forschung (SNF), Switzerland; the Science and Technology Facilities Council (STFC), British funding agency, Great Britain; the Scientific and Technological Research Council of Turkey (TUBITAK) under the Grant No. 119F094, Turkey; the Stefan Meyer Institut fur Subatomare Physik and the Osterreichische Akademie der Wissenschaften, Wien, Austria; the Swedish Research Council and the Knut and Alice Wallenberg Foundation, Sweden.

Published

2021

42. Study of excited Ξ baryons with the P¯ANDA detector

Author

Barucca, G., Akram, Adeel, Calén, Hans, Ikegami Andersson, Walter, Johansson, Tord, Kupsc, Andrzej, Marciniewski, Pawel, Papenbrock, Michael, Regina, Jenny, Rieger, Jana, Schönning, Karin, Wolke, Magnus, and Zimmermann, S.

Subjects

Subatomär fysik, Subatomic Physics

Abstract

The study of baryon excitation spectra provides insight into the inner structure of baryons. So far, most of the world-wide efforts have been directed towards N * and Delta spectroscopy. Nevertheless, the study of the double and triple strange baryon spectrum provides independent information to the N * and Delta spectra. The future antiproton experiment (P) over bar ANDA will provide direct access to final states containing a (Xi) over bar Xi pair, for which production cross sections up to mu b are expected in (p) over barp reactions. With a luminosity of L = 10(31) cm(-2) s(-1) in the first phase of the experiment, the expected cross sections correspond to a production rate of similar to 10(6) events/day. With a nearly 4 pi detector acceptance, (P) over bar ANDA will thus be a hyperon factory. In this study, reactions of the type (p) over barp -> (Xi) over bar (+)Xi*(-) as well as (p) over barp -> (Xi) over bar*(+)Xi(-) with various decay modes are investigated. For the exclusive reconstruction of the signal events a full decay tree fit is used, resulting in reconstruction efficiencies between 3 and 5%. This allows high statistics data to be collected within a few weeks of data taking. For complete list of authors see http://dx.doi.org/10.1140/epja/s10050-021-00444-5Title in WoS: Study of excited Xi baryons with the (P)over-barANDA detector

Published

2021

43. Feasibility studies for the measurement of time-like proton electromagnetic form factors from $\bar{p}p\rightarrow \mu^{+}\mu^{-}$ at $\bar{P}ANDA$ at FAIR

Author

Barucca, G., Davì, F., Lancioni, G., Mengucci, P., Montalto, L., Natali, P. P., Paone, N., Rinaldi, D., Scalise, L., Erni, W., Krusche, B., Steinacher, M., Walford, N., Cao, N., Liu, Z., Liu, C., Liu, B., Shen, X., Sun, S., Tao, J., Xiong, X. A., Zhao, G., Zhao, J., Albrecht, M., Alkakhi, W., Bökelmann, S., Coen, S., Feldbauer, F., Fink, M., Frech, J., Freudenreich, V., Fritsch, M., Grochowski, J., Hagdorn, R., Heinsius, F. H., Held, T., Holtmann, T., Keshk, I., Koch, H., Kopf, B., Kuhlmann, M., Kümmel, M., Küßner, M., Li, J., Linzen, L., Maldaner, S., Oppotsch, J., Pankonin, S., Pelizäus, M., Pflüger, S., Pitka, A., Reher, J., Reicherz, G., Schnier, C., Steinke, M., Triffterer, T., Wenzel, C., Wiedner, U., Denizli, H., Er, N., Keskin, U., Olgun, A. T., Yerlikaya, S., Yilmaz, A., Beck, R., Hammann, C., Hartmann, J., Ketzer, B., Müllers, J., Rossbach, M., Salisbury, B., Schmidt, C., Thoma, U., Urban, M., Bianconi, A., Bragadireanu, M., Pantea, D., Domagala, M., Filo, G., Lisowski, E., Lisowski, F., Michałek, M., Poznański, P., Płażek, J., Korcyl, K., Kozela, A., Lebiedowicz, P., Pysz, K., Schäfer, W., Szczurek, A., Firlej, M., Fiutowski, T., Idzik, M., Moron, J., Swientek, K., Terlecki, P., Korcyl, Grzegorz, Lalik, Rafał, Malige, Akshay, Moskal, Paweł, Nowakowski, Krzysztof, Przygoda, Witold, Rathod, Narendra, Rudy, Zbigniew, Salabura, Piotr, Smyrski, Jerzy, Augustin, I., Böhm, R., Lehmann, I., Schmitt, L., Varentsov, V., Al-Turany, M., Belias, A., Deppe, H., Dzhygadlo, R., Flemming, H., Gerhardt, A., Götzen, K., Heinz, A., Jiang, P., Karabowicz, R., Koch, S., Kurilla, U., Lehmann, D., Lühning, J., Lynen, U., Orth, H., Peters, K., Saito, T., Schepers, G., Schmidt, C. J., Schwarz, C., Schwiening, J., Täschner, A., Traxler, M., Voss, B., Wieczorek, P., Abazov, V., Alexeev, G., Arefiev, V. A., Astakhov, V., Barabanov, M. Yu., Batyunya, B. V., Dodokhov, V. Kh., Efremov, A., Fechtchenko, A., Galoyan, A., Golovanov, G., Koshurnikov, E. K., Lobanov, Y. Yu., Olshevskiy, A. G., Piskun, A. A., Samartsev, A., Shimanski, S., Skachkov, N. B., Skachkova, A. N., Strokovsky, E. A., Tokmenin, V., Uzhinsky, V., Verkheev, A., Vodopianov, A., Zhuravlev, N. I., Branford, D., Watts, D., Böhm, M., Eyrich, W., Lehmann, A., Miehling, D., Pfaffinger, M., Quin, N., Robison, L., Seth, K., Xiao, T., Bettoni, D., Ali, A., Hamdi, A., Himmelreich, M., Krebs, M., Nakhoul, S., Nerling, F., Belousov, A., Kisel, I., Kozlov, G., Pugach, M., Zyzak, M., Bianchi, N., Gianotti, P., Lucherini, V., Bracco, G., Bettner, Y., Bodenschatz, S., Brinkmann, K. T., Brück, L., Diehl, S., Dormenev, V., Düren, M., Erlen, T., Föhl, K., Hahn, C., Hayrapetyan, A., Hofmann, J., Kegel, S., Kesselkaul, M., Köseoglu, I., Kripko, A., Kühn, W., Lange, J. S., Metag, V., Moritz, M., Nanova, M., Novotny, R., Orsich, P., Pereira-de-Lira, J., Peter, M., Sachs, M., Schmidt, M., Schubert, R., Stenzel, H., Straube, M., Strickert, M., Thöring, U., Wasem, T., Wohlfahrt, B., Zaunick, H. G., Tomasi-Gustafsson, E., Glazier, D., Ireland, D., Seitz, B., Deepak, P. N., Kulkarni, A., Kappert, R., Kavatsyuk, M., Loehner, H., Messchendorp, J., Rodin, V., Schakel, P., Vejdani, S., Dutta, K., Kalita, K., Huang, G., Liu, D., Peng, H., Qi, H., Sun, Y., Zhou, X., Kunze, M., Azizi, K., Tavukoglu, Z., Derichs, A., Dosdall, R., Esmail, W., Gillitzer, A., Goldenbaum, F., Grunwald, D., Jokhovets, L., Kannika, J., Kulessa, P., Orfanitski, S., Pérez Andrade, G., Prasuhn, D., Prencipe, E., Pütz, J., Ritman, J., Rosenthal, E., Schadmand, S., Schmitz, R., Scholl, A., Sefzick, T., Serdyuk, V., Stockmanns, T., Veretennikov, D., Wintz, P., Wüstner, P., Xu, H., Zhou, Y., Cao, X., Hu, Q., Li, Z., Li, H., Liang, Y., Ma, X., Rigato, V., Isaksson, L., Achenbach, P., Corell, O., Denig, A., Distler, M., Hoek, M., Lauth, W., Leithoff, H. H., Merkel, H., Müller, U., Pochodzalla, J., Schlimme, S., Sfienti, C., Thiel, M., Zambrana, M., Ahmed, S., Bleser, S., Bölting, M., Capozza, L., Dbeyssi, A., Ehret, A., Klasen, R., Kliemt, R., Maas, F., Motzko, C., Noll, O., Piñeiro, D. Rodríguez, Schupp, F., Steinen, M., Wolff, S., Zimmermann, I., Fedorov, A., Kazlou, D., Korzhik, M., Missevitch, O., Balanutsa, P., Chernetsky, V., Demekhin, A., Dolgolenko, A., Fedorets, P., Gerasimov, A., Golubev, A., Goryachev, V., Kantsyrev, A., Kirin, D. Y., Kristi, N., Ladygina, E., Luschevskaya, E., Matveev, V. A., Panjushkin, V., Stavinskiy, A. V., Balashoff, A., Boukharov, A., Malyshev, O., Basant, K. N., Kumawat, H., Roy, B., Saxena, A., Yogesh, S., Bonaventura, D., Brand, P., Fritzsch, C., Grieser, S., Hargens, C., Hergemöller, A. K., Hetz, B., Hüsken, N., Kellers, J., Khoukaz, A., Mannweiler, C., Vestrick, S., Bumrungkoh, D., Herold, C., Khosonthongkee, K., Kobdaj, C., Limphirat, A., Manasatitpong, K., Nasawad, T., Pongampai, S., Simantathammakul, T., Srisawad, P., Wongprachanukul, N., Yan, Y., Yu, C., Zhang, X., Zhu, W., Blinov, A. E., Kononov, S., Kravchenko, E. A., Antokhin, E., Barnyakov, A. Yu., Beloborodov, K., Blinov, V. E., Kuyanov, I. A., Pivovarov, S., Pyata, E., Tikhonov, Y., Hunter, G., Lattery, M., Pace, H., Boca, G., Duda, D., Finger, M., Finger, Jr., M., Kveton, A., Pesek, M., Peskova, M., Prochazka, I., Slunecka, M., Volf, M., Gallus, P., Jary, V., Korchak, O., Marcisovsky, M., Neue, G., Novy, J., Tomasek, L., Tomasek, M., Virius, M., Vrba, V., Abramov, V., Bukreeva, S., Chernichenko, S., Derevschikov, A., Ferapontov, V., Goncharenko, Y., Levin, A., Maslova, E., Melnik, Y., Meschanin, A., Minaev, N., Mochalov, V., Moiseev, V., Morozov, D., Nogach, L., Poslavskiy, S., Ryazantsev, A., Ryzhikov, S., Semenov, P., Shein, I., Uzunian, A., Vasiliev, A., Yakutin, A., Roy, U., Yabsley, B., Belostotski, S., Fedotov, G., Gavrilov, G., Izotov, A., Manaenkov, S., Miklukho, O., Zhdanov, A., Atac, A., Bäck, T., Cederwall, B., Makonyi, K., Preston, M., Tegner, P. E., Wölbing, D., Gandhi, K., Rai, A. K., Godre, S., Crede, V., Dobbs, S., Eugenio, P., Lersch, D., Calvo, D., De Remigis, P., Filippi, A., Mazza, G., Rivetti, A., Wheadon, R., Bussa, M. P., Spataro, S., Iazzi, F., Lavagno, A., Martin, A., Akram, A., Calen, H., Andersson, W. Ikegami, Johansson, T., Kupsc, A., Marciniewski, P., Papenbrock, M., Regina, J., Rieger, J., Schönning, K., Wolke, M., Pothodi Chackara, V., Chlopik, A., Kesik, G., Melnychuk, D., Tarasiuk, J., Wojciechowski, M., Wronka, S., Zwieglinski, B., Amsler, C., Bühler, P., Marton, J., Nalti, W., Steinschaden, D., Widmann, E., Zimmermann, S., and Zmeskal, J.

Published

2021

44. Feasibility studies for the measurement of time-like proton electromagnetic form factors from (p)over-barp -> mu(+)mu(-) at PANDA at FAIR

Author

Barucca, G, Atac, A, Bäck, Torbjörn, Cederwall, Bo, Zmeskal, J., et al., Barucca, G, Atac, A, Bäck, Torbjörn, Cederwall, Bo, Zmeskal, J., and et al.

Abstract

This paper reports on Monte Carlo simulation results for future measurements of the moduli of time-like proton electromagnetic form factors, vertical bar G(E)vertical bar and vertical bar G(M)vertical bar, using the (p) over barp -> mu(+)mu(-) reaction at PANDA (FAIR). The electromagnetic form factors are fundamental quantities parameterizing the electric and magnetic structure of hadrons. This work estimates the statistical and total accuracy with which the form factors can be measured at PANDA, using an analysis of simulated data within the PandaRoot software framework. The most crucial background channel is (p) over barp -> pi(+)pi(-), due to the very similar behavior of muons and pions in the detector. The suppression factors are evaluated for this and all other relevant background channels at different values of antiproton beam momentum. The signal/background separation is based on a multivariate analysis, using the Boosted Decision Trees method. An expected background subtraction is included in this study, based on realistic angular distributions of the background contribution. Systematic uncertainties are considered and the relative total uncertainties of the form factor measurements are presented., QC 20211116

Published

2021

45. Exploring the magnetic properties and magnetic coupling in SrFe12O19/ Co1-XZnXFe2O4 & nbsp;nanocomposites

Author

Maltoni, piema929, Sarkar, Tapati, Barucca, G., Varvaro, G., Peddis, D., Mathieu, Roland, Maltoni, piema929, Sarkar, Tapati, Barucca, G., Varvaro, G., Peddis, D., and Mathieu, Roland

Abstract

Among hard/soft nanocomposites (NCs), ferrite-based materials are potentially promising for developing exchange-coupled systems, thus leading to enhanced magnetic properties. In this regard, we investigate the role of the synthesis approach in the development of SrFe12O19/CoFe2O4 (SFO/CFO) NCs, with special focus on tuning the magnetic features of the softer phase (CFO) by introducing Zn2+ in the spinel structure. X-ray powder diffraction (XRPD), transmission electron microscopy (TEM) and squid magnetometry were employed to clarify the relationship between morphology, size, and magnetic properties of the NCs, pointing out the feasibility of this method in obtaining successfully exchange-coupled systems. This work shows how optimizing the intrinsic magnetic properties of the CFO may be used to tune the extrinsic ones of the NCs. Despite the promising results in magnetic coupling, our study clearly confirms/strengthens that an enhancement of remanent magnetization is the most important factor for improving the magnetic performance.

Published

2021

46. The potential of Lambda and Xi(-) studies with PANDA at FAIR

Author

Barucca, G., Akram, Adeel, Calén, Hans, Ikegami Andersson, Walter, Johansson, Tord, Kupsc, Andrzej, Marciniewski, Pawel, Papenbrock, Michael, Regina, Jenny, Schönning, Karin, Wolke, Magnus, Zmeskal, J., Barucca, G., Akram, Adeel, Calén, Hans, Ikegami Andersson, Walter, Johansson, Tord, Kupsc, Andrzej, Marciniewski, Pawel, Papenbrock, Michael, Regina, Jenny, Schönning, Karin, Wolke, Magnus, and Zmeskal, J.

Abstract

The antiproton experiment PANDA at FAIR is designed to bring hadron physics to a new level in terms of scope, precision and accuracy. In this work, its unique capability for studies of hyperons is outlined. We discuss groundstate hyperons as diagnostic tools to study non-perturbative aspects of the strong interaction, and fundamental symmetries. New simulation studies have been carried out for two benchmark hyperon-antihyperon production channels: (p) over barp -> (Lambda) over bar Lambda and (p) over barp -> (Xi) over bar+Xi(-). The results, presented in detail in this paper, show that hyperon-antihyperon pairs from these reactions can be exclusively reconstructed with high efficiency and very low background contamination. In addition, the polarisation and spin correlations have been studied, exploiting the weak, self-analysing decay of hyperons and antihyperons. Two independent approaches to the finite efficiency have been applied and evaluated: one standard multidimensional efficiency correction approach, and one efficiency independent approach. The applicability of the latter was thoroughly evaluated for all channels, beam momenta and observables. The standard method yields good results in all cases, and shows that spin observables can be studied with high precision and accuracy already in the first phase of data taking with PANDA., For complete list of authors see http://dx.doi.org/10.1140/epja/s10050-021-00386-y

Published

2021

47. Flexible magnetoreceptor with tunable intrinsic logic for on-skin touchless human-machine interfaces

Author

(0000-0003-2693-1180) Makushko, P., (0000-0002-7277-7287) Oliveros Mata, E. S., (0000-0002-1660-4437) Canon Bermudez, G. S., (0000-0002-8592-5672) Hassan, M., Laureti, S., (0000-0001-6930-211X) Rinaldi, C., Fagiani, F., (0000-0002-7368-6264) Barucca, G., (0000-0002-1254-7826) Schmidt, N., (0000-0002-3931-5945) Zabila, Y., Kosub, T., (0000-0002-8089-6294) Illing, R., (0000-0001-7246-4099) Volkov, O., (0000-0002-2106-9176) Vladymyrskyi, I., (0000-0003-3893-9630) Faßbender, J., (0000-0002-0795-8487) Albrecht, M., (0000-0001-7313-7268) Varvaro, G., (0000-0002-7177-4308) Makarov, D., (0000-0003-2693-1180) Makushko, P., (0000-0002-7277-7287) Oliveros Mata, E. S., (0000-0002-1660-4437) Canon Bermudez, G. S., (0000-0002-8592-5672) Hassan, M., Laureti, S., (0000-0001-6930-211X) Rinaldi, C., Fagiani, F., (0000-0002-7368-6264) Barucca, G., (0000-0002-1254-7826) Schmidt, N., (0000-0002-3931-5945) Zabila, Y., Kosub, T., (0000-0002-8089-6294) Illing, R., (0000-0001-7246-4099) Volkov, O., (0000-0002-2106-9176) Vladymyrskyi, I., (0000-0003-3893-9630) Faßbender, J., (0000-0002-0795-8487) Albrecht, M., (0000-0001-7313-7268) Varvaro, G., and (0000-0002-7177-4308) Makarov, D.

Abstract

Artificial magnetoception is a new and yet to be explored path for humans to interact with our surroundings. This technology is enabled by thin film magnetic field sensors embedded in a soft and flexible format to constitute magnetosensitive electronic skins (e-skins). Being limited by the sensitivity to in-plane magnetic fields, magnetosensitive e-skins are restricted to basic proximity and angle sensing and are not used as switches or logic elements of interactive wearable electronics. Here, we demonstrate a novel magnetoreceptive platform for on-skin touchless interactive electronics based on flexible spin valve switches with the sensitivity to out-of-plane magnetic fields. The technology relies on all-metal Co/Pd-based spin valves with a synthetic antiferromagnet possessing perpendicular magnetic anisotropy. The flexible magnetoreceptors act as logic elements, namely momentary and permanent (latching) switches. The switches maintain their performance even upon severe bending to a radius of less than 5 mm and withstand repetitive bending for hundreds of cycles. We integrated flexible switches in on-skin interactive electronics and demonstrated their performance as touchless human-machine interfaces, which are intuitive to use, energy efficient, and insensitive to external magnetic disturbances. This technology offers qualitatively new functionalities for electronic skins and paves the way towards full-fledged on-skin touchless interactive electronics.

Published

2021

48. Study of Excited $\Xi$ Baryons with the PANDA Detector

Author

Barucca, G., Davi, F., Lancioni, G., Mengucci, P., Montalto, L., Natali, P.P., Paone, N., Rinaldi, D., Scalise, L., Krusche, B., Steinacher, M., Liu, Z., Liu, C., Liu, B., Shen, X., Sun, S., Zhao, G., Zhao, J., Albrecht, M., Alkakhi, W., Bökelmann, S., Coen, S., Feldbauer, F., Fink, M., Frech, J., Freudenreich, V., Fritsch, M., Grochowski, J., Hagdorn, R., Heinsius, F.H., Held, T., Holtmann, T., Keshk, I., Koch, H., Kopf, B., Kümmel, M., Küßner, M., Li, J., Linzen, L., Maldaner, S., Oppotsch, J., Pankonin, S., Pelizäus, M., Pflüger, S., Reher, J., Reicherz, G., Schnier, C., Steinke, M., Triffterer, T., Wenzel, C., Wiedner, U., Denizli, H., Er, N., Keskin, U., Yerlikaya, S., Yilmaz, A., Beck, R., Chauhan, V., Hammann, C., Hartmann, J., Ketzer, B., Müllers, J., Salisbury, B., Thoma, U., Urban, M., Bianconi, A., Bragadireanu, M., Pantea, D., Domagala, M., Filo, G., Lisowski, E., Lisowski, F., Michalek, M., Poznánski, P., Plazek, J., Korcyl, K., Lebiedowicz, P., Pysz, K., Schäfer, W., Szczurek, A., Firlej, M., Fiutowski, T., Idzik, M., Moron, J., Swientek, K., Terlecki, P., Korcyl, G., Lalik, R., Malige, A., Moskal, P., Nowakowski, K., Przygoda, W., Rathod, N., Salabura, P., Smyrski, J., Augustin, I., Böhm, R., Lehmann, I., Schmitt, L., Varentsov, V., Al-Turany, M., Belias, A., Deppe, H., Dzhygadlo, R., Flemming, H., Gerhardt, A., Götzen, K., Heinz, A., Jiang, P., Karabowicz, R., Koch, S., Kurilla, U., Lehmann, D., Lühning, J., Lynen, U., Orth, H., Peters, K., Schepers, G., Schmidt, C.J., Schwarz, C., Schwiening, J., Täschner, A., Traxler, M., Voss, B., Wieczorek, P., Abazov, V., Alexeev, G., Barabanov, M.Yu., Dodokhov, V.Kh., Efremov, A., Fechtchenko, A., Galoyan, A., Golovanov, G., Koshurnikov, E.K., Lobanov, Y.Yu., Olshevskiy, A.G., Piskun, A.A., Samartsev, A., Shimanski, S., Skachkov, N.B., Skachkova, A.N., Strokovsky, E.A., Tokmenin, V., Uzhinsky, V., Verkheev, A., Vodopianov, A., Zhuravlev, N.I., Watts, D., Böhm, M., Eyrich, W., Lehmann, A., Miehling, D., Pfaffinger, M., Seth, K., Xiao, T., Ali, A., Hamdi, A., Himmelreich, M., Krebs, M., Nakhoul, S., Nerling, F., Gianotti, P., Lucherini, V., Bracco, G., Bodenschatz, S., Brinkmann, K.T., Brück, L., Diehl, S., Dormenev, V., Düren, M., Erlen, T., Hahn, C., Hayrapetyan, A., Hofmann, J., Kegel, S., Khalid, F., Köseoglu, I., Kripko, A., Kühn, W., Metag, V., Moritz, M., Nanova, M., Novotny, R., Orsich, P., Pereira-de-Lira, J., Sachs, M., Schmidt, M., Schubert, R., Strickert, M., Wasem, T., Zaunick, H.G., Tomasi-Gustafsson, E., Glazier, D., Ireland, D., Seitz, B., Kappert, R., Kavatsyuk, M., Loehner, H., Messchendorp, J., Rodin, V., Kalita, K., Huang, G., Liu, D., Peng, H., Qi, H., Sun, Y., Zhou, X., Kunze, M., Azizi, K., Olgun, A.T., Tavukoglu, Z., Derichs, A., Dosdall, R., Esmail, W., Gillitzer, A., Goldenbaum, F., Grunwald, D., Jokhovets, L., Kannika, J., Kulessa, P., Orfanitski, S., Pérez-Andrade, G., Prasuhn, D., Prencipe, E., Pütz, J., Ritman, J., Rosenthal, E., Schadmand, S., Schmitz, R., Scholl, A., Sefzick, T., Serdyuk, V., Stockmanns, T., Veretennikov, D., Wintz, P., Wüstner, P., Xu, H., Zhou, Y., Cao, X., Hu, Q., Liang, Y., Rigato, V., Isaksson, L., Achenbach, P., Corell, O., Denig, A., Distler, M., Hoek, M., Lauth, W., Leithoff, H.H., Merkel, H., Müller, U., Petersen, J., Pochodzalla, J., Schlimme, S., Sfienti, C., Thiel, M., Bleser, S., Bölting, M., Capozza, L., Dbeyssi, A., Ehret, A., Klasen, R., Kliemt, R., Maas, F., Motzko, C., Noll, O., Rodríguez Piñeiro, D., Schupp, F., Steinen, M., Wolff, S., Zimmermann, I., Kazlou, D., Korzhik, M., Missevitch, O., Balanutsa, P., Chernetsky, V., Demekhin, A., Dolgolenko, A., Fedorets, P., Gerasimov, A., Golubev, A., Kantsyrev, A., Kirin, D.Y., Kristi, N., Ladygina, E., Luschevskaya, E., Matveev, V.A., Panjushkin, V., Stavinskiy, A.V., Balashoff, A., Boukharov, A., Bukharova, M., Malyshev, O., Vishnevsky, E., Bonaventura, D., Brand, P., Hetz, B., Hüsken, N., Kellers, J., Khoukaz, A., Klostermann, D., Mannweiler, C., Vestrick, S., Bumrungkoh, D., Herold, C., Khosonthongkee, K., Kobdaj, C., Limphirat, A., Manasatitpong, K., Nasawad, T., Pongampai, S., Simantathammakul, T., Srisawad, P., Wongprachanukul, N., Yan, Y., Yu, C., Zhang, X., Zhu, W., Antokhin, E., Barnyakov, A.Yu., Beloborodov, K., Blinov, V.E., Kuyanov, I.A., Pivovarov, S., Pyata, E., Tikhonov, Y., Blinov, A.E., Kononov, S., Kravchenko, E.A., Lattery, M., Boca, G., Duda, D., Finger, M., Kveton, A., Pesek, M., Peskova, M., Prochazka, I., Slunecka, M., Volf, M., Gallus, P., Jary, V., Korchak, O., Marcisovsky, M., Neue, G., Novy, J., Tomasek, L., Tomasek, M., Virius, M., Vrba, V., Abramov, V., Bukreeva, S., Chernichenko, S., Derevschikov, A., Ferapontov, V., Goncharenko, Y., Levin, A., Maslova, E., Melnik, Y., Meschanin, A., Minaev, N., Mochalov, V., Moiseev, V., Morozov, D., Nogach, L., Poslavskiy, S., Ryazantsev, A., Ryzhikov, S., Semenov, P., Shein, I., Uzunian, A., Vasiliev, A., Yakutin, A., Belostotski, S., Fedotov, G., Izotov, A., Manaenkov, S., Miklukho, O., Preston, M., Tegner, P.E., Wölbing, D., Cederwall, B., Gandhi, K., Rai, A.K., Godre, S., Crede, V., Dobbs, S., Eugenio, P., Calvo, D., De Remigis, P., Filippi, A., Mazza, G., Wheadon, R., Iazzi, F., Lavagno, A., Bussa, M.P., Spataro, S., Akram, A., Calen, H., Andersson, W. Ikegami, Johansson, T., Kupsc, A., Marciniewski, P., Papenbrock, M., Regina, J., Rieger, J., Schönning, K., Wolke, M., Chlopik, A., Kesik, G., Melnychuk, D., Tarasiuk, J., Wronka, S., Zwieglinski, B., Amsler, C., Bühler, P., Marton, J., Zimmermann, S., Institut de Recherches sur les lois Fondamentales de l'Univers (IRFU), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay, and PANDA

Subjects

hyperon: particle source, baryon: excited state, PANDA, High Energy Physics::Phenomenology, Xi: excited state, Xi: pair production, anti-p p: colliding beams, High Energy Physics - Experiment, excited state: spectrum, statistics, efficiency, anti-p p: scattering, [PHYS.HEXP]Physics [physics]/High Energy Physics - Experiment [hep-ex], Xi: decay modes, High Energy Physics::Experiment, structure, proposed experiment, Nuclear Experiment, acceptance

Abstract

The study of baryon excitation spectra provides insight into the inner structure of baryons. So far, most of the world-wide efforts have been directed towards $N^*$ and $\Delta$ spectroscopy. Nevertheless, the study of the double and triple strange baryon spectrum provides independent information to the $N^*$ and $\Delta$ spectra. The future antiproton experiment PANDA will provide direct access to final states containing a $\bar{\Xi}\Xi$ pair, for which production cross sections up to $\mu$b are expected in $\bar{p}p$ reactions. With a luminosity of $L=10^{31}\,cm^{-2}s^{-1}$ in the first phase of the experiment, the expected cross sections correspond to a production rate of $\sim 10^6$ events$/$day. With a nearly $4\pi$ detector acceptance, PANDA will thus be a hyperon factory. In this study, reactions of the type $\bar{p}p\rightarrow \bar{\Xi}^+ \Xi^{*-}$ as well as $\bar{p}p\rightarrow \bar{\Xi}^{*+} \Xi^{-}$ with various decay modes are investigated. For the exclusive reconstruction of the signal events a full decay tree fit is used, resulting in reconstruction efficiencies between $3\,\%$ and $5\,\%$. This allows high statistics data to be collected within a few weeks of data taking., Comment: 20 pages, 16 figures, corrections/changes according to the comments from the journal referees

Published

2020

49. A novel thermal treatment on a Mg–4.2Y–2.3Nd–0.6Zr (WE43) alloy

Author

Riontino, G., Massazza, M., Lussana, D., Mengucci, P., Barucca, G., and Ferragut, R.

Published

2008

50. Structure evolution of EV31 Mg alloy

Author

Riontino, G., Lussana, D., Massazza, M., Barucca, G., Mengucci, P., and Ferragut, R.

Published

2008