Search Results - "Snopkov, R."

Two-phase argon and xenon avalanche detectors based on Gas Electron Multipliers by Bondar, A., Buzulutskov, A., Grebenuk, A., Pavlyuchenko, D., Snopkov, R., Tikhonov, Y.

“…We study the performance of two-phase avalanche detectors based on Gas Electron Multipliers (GEMs) and operated in an electron-avalanching mode in Ar and Xe…”
Get full text

Liquid argon calorimeter performance at high rates by Glatte, A., Kobel, M., Mader, W.F., Seifert, F., Straessner, A., Cheplakov, A., Drobin, V., Ershov, V., Fimushkin, V., Javadov, N., Kazarinov, M., Komogorov, E., Kukhtin, V., Ladygin, E., Lazarev, A., Merkulov, L., Neganov, A., Petrova, L., Shilov, S., Usov, Yu, Vadeev, V., Bruncko, D., Kladiva, E., Ferencei, J., Spalek, J., Strizenec, P., Degele, R., Ertel, E., Handel, C., Othegraven, R., Secker, H., Tapprogge, S., Akimov, A., Blagov, M., Komar, A., Snesarev, A., Sulin, V., Barillari, T., Fischer, A., Huber, J., Kiryunin, A., Menke, S., Oberlack, H., Pospelov, G., Salihagic, D., Schacht, P., Bedareva, T., Grekhov, A., Maslennikov, A., Peleganchuk, S., Pivovarov, S., Snopkov, R., Starostin, A., Talyshev, A., Tikhonov, Y., Afonin, A., Andreev, V., Anikeev, V., Azhgirey, I., Bezzubov, V., Chabrov, N., Denisov, S., Evdokimov, V., Garkusha, V., Khmaruk, G., Kozelov, A., Krupny, G., Kulikov, S., Levin, A., Malyaev, V., Prokopenko, N., Rascvetalov, J., Seleznev, V., Soldatov, M., Stoyanova, D., Suzdalev, V., Vasiliev, I., Voronin, V., Yakimchuk, V., Rutherfoord, J., Savin, A., Shaver, L., Walker, R., Chekulaev, S., Kurchaninov, L., Oram, C.J., Braun, H.M., Zeitnitz, Ch

“…We project the performance of the ATLAS liquid argon endcap and forward calorimeters at the planned high luminosity LHC option HL-LHC by exposing small…”
Get full text

Cryogenic avalanche detectors based on gas electron multipliers by Bondar, A., Buzulutskov, A., Shekhtman, L., Snopkov, R., Tikhonov, Y.

“…We study the performances of gaseous and two-phase (liquid-gas) cryogenic detectors of ionizing radiation based on gas electron multipliers (GEMs) and operated…”
Get full text

First results from cryogenic avalanche detectors based on gas electron multipliers by Buzulutskov, A., Bondar, A., Shekhtman, L., Snopkov, R., Tikhonov, Y.

“…We study the performance of gaseous and two-phase (liquid-gas) cryogenic detectors of ionizing radiation, based on gas electron multipliers (GEMs). For the…”
Get full text

GEM operation in helium and neon at low temperatures by Buzulutskov, A., Dodd, J., Galea, R., Ju, Y., Leltchouk, M., Rehak, P., Tcherniatine, V., Willis, W.J., Bondar, A., Pavlyuchenko, D., Snopkov, R., Tikhonov, Y.

“…We study the performance of Gas Electron Multipliers (GEMs) in gaseous He, Ne and Ne+H 2 at temperatures in the range of 2.6–293 K. In He, at temperatures…”
Get full text

Hadronic calibration of the ATLAS liquid argon end-cap calorimeter in the pseudorapidity region 1.6 < | η | < 1.8 in beam tests by Cojocaru, C., Pinfold, J., Soukup, J., Golubykh, S., Javadov, N., Kalinnikov, V., Kakurin, S., Kukhtin, V., Neganov, A., Pisarev, I., Rousakovitch, N., Serochkin, E., Shilov, S., Usov, Yu, Bruncko, D., Chytracek, R., Kladiva, E., Strizenec, P., Garcia, G., Labarga, F., Rodier, S., del Peso, J., Heldmann, M., Jakobs, K., Koepke, L., Othegraven, R., Schroff, D., Thomas, J., Zeitnitz, C., Barrillon, P., Benchouk, C., Henry-Couannier, F., Hinz, L., Hubaut, F., Olivier, C., Pralavorio, P., Sauvage, D., Serfon, C., Tisserant, S., Toth, J., Azuelos, G., Leroy, C., Mehdiyev, R., Akimov, A., Blagov, M., Komar, A., Snesarev, A., Speransky, M., Sulin, V., Yakimenko, M., Aderholz, M., Bartko, H., Cwienk, W., Fischer, A., Habring, J., Huber, J., Karev, A., Kiryunin, A., Kurchaninov, L., Menke, S., Mooshofer, P., Oberlack, H., Salihagic, D., Schacht, P., Chen, T., Qi, M., Aoulthenko, W., Kazanin, V., Kolatchev, G., Maslennikov, A., Pospelov, G., Snopkov, R., Shousharo, A., Soukharev, A., Talychev, A., Tikhonov, Y., Chekulaev, S., Denisov, S., Levitsky, M., Minaenko, A., Moiseev, A., Pleskatch, A., Sytnik, V., Zakamsky, L., Losty, M., Oram, C.J., Wielers, M., Fincke-Keeler, M., Gable, I., Hodges, T.A., Hughes, T., Ince, T., Kanaya, N., Keeler, R.K., Langstaff, R., Lefebvre, M., Lenckowski, M., McPherson, R., Braun, H.M., Thadome, J.

“…A full azimuthal φ -wedge of the ATLAS liquid argon end-cap calorimeter has been exposed to beams of electrons, muons and pions in the energy range 6 GeV ⩽ E ⩽…”
Get full text

Further studies of GEM performance at cryogenic temperatures by BONDAR, A, BUZULUTSKOV, A, PAVLYUCHENKO, D, SHEKHTMAN, L, SNOPKOV, R, TIKHONOV, Y, VASILJEV, A

Get full text

Further studies of GEM performance at cryogenic temperatures by Bondar, A., Buzulutskov, A., Pavlyuchenko, D., Shekhtman, L., Snopkov, R., Tikhonov, Y., Vasiljev, A.

“…We have carried out further studies of the performance of Gas Electron Multipliers (GEMs) in pure He, Ar and Kr at cryogenic temperatures, in the gaseous and…”
Get full text

Further studies of GEM performance in dense noble gases by Aulchenko, V., Bondar, A., Buzulutskov, A., Shekhtman, L., Snopkov, R., Tikhonov, Yu

“…We further study the performance of single, double and triple Gas Electron Multiplier (GEM) detectors in pure noble gases at high pressures, in the range of…”
Get full text

Hadronic calibration of the ATLAS liquid argon end-cap calorimeter in the pseudorapidity region in beam tests by Cojocaru, C., Pinfold, J., Soukup, J., Vincter, M., Datskov, V., Fedorov, A., Golubykh, S., Javadov, N., Kalinnikov, V., Kakurin, S., Kazarinov, M., Kukhtin, V., Ladygin, E., Lazarev, A., Neganov, A., Pisarev, I., Rousakovitch, N., Serochkin, E., Shilov, S., Shalyugin, A., Usov, Yu, Bruncko, D., Chytracek, R., Kladiva, E., Strizenec, P., Barreiro, F., Garcia, G., Labarga, F., Rodier, S., del Peso, J., Heldmann, M., Jakobs, K., Koepke, L., Othegraven, R., Schroff, D., Thomas, J., Zeitnitz, C., Barrillon, P., Benchouk, C., Djama, F., Henry-Couannier, F., Hinz, L., Hubaut, F., Monnier, E., Olivier, C., Pralavorio, P., Raymond, M., Sauvage, D., Serfon, C., Tisserant, S., Toth, J., Azuelos, G., Leroy, C., Mehdiyev, R., Akimov, A., Blagov, M., Komar, A., Snesarev, A., Speransky, M., Sulin, V., Yakimenko, M., Aderholz, M., Barillari, T., Bartko, H., Cwienk, W., Fischer, A., Habring, J., Huber, J., Karev, A., Kiryunin, A., Kurchaninov, L., Menke, S., Mooshofer, P., Oberlack, H., Salihagic, D., Schacht, P., Chen, T., Ping, J., Qi, M., Aoulthenko, W., Kazanin, V., Kolatchev, G., Malychev, W., Maslennikov, A., Pospelov, G., Snopkov, R., Shousharo, A., Soukharev, A., Talychev, A., Tikhonov, Y., Chekulaev, S., Denisov, S., Levitsky, M., Minaenko, A., Mitrofanov, G., Moiseev, A., Pleskatch, A., Sytnik, V., Zakamsky, L., Losty, M.

Get full text

The KEDR detector by Anashin, V. V., Aulchenko, V. M., Baldin, E. M., Barladyan, A. K., Barnyakov, A. Yu, Barnyakov, M. Yu, Baru, S. E., Basok, I. Yu, Bedny, I. V., Beloborodova, O. L., Blinov, A. E., Blinov, V. E., Bobrov, A. V., Bobrovnikov, V. S., Bondar, A. E., Buzykaev, A. R., Vorobiov, A. I., Gulevich, V. V., Dneprovsky, L. V., Zhilich, V. N., Zhulanov, V. V., Karpov, G. V., Karpov, S. V., Kononov, S. A., Kotov, K. Yu, Kravchenko, E. A., Kudryavtsev, V. N., Kuzmin, A. S., Kulikov, V. F., Kuper, E. A., Levichev, E. B., Maksimov, D. A., Malyshev, V. M., Maslennikov, A. L., Medvedko, A. S., Muchnoi, N. Yu, Nikitin, S. A., Nikolaev, I. B., Onuchin, A. P., Oreshkin, S. B., Orlov, I. O., Osipov, A. A., Peleganchuk, S. V., Pivovarov, S. G., Poluektov, A. O., Pospelov, G. E., Prisekin, V. G., Rodyakin, V. A., Ruban, A. A., Savinov, G. A., Skovpen, Yu. I., Skrinsky, A. N., Smalyuk, V. V., Snopkov, R. G., Sokolov, A. V., Sukharev, A. M., Talyshev, A. A., Tayursky, V. A., Telnov, V. I., Tikhonov, Yu. A., Todyshev, K. Yu, Usov, Yu. V., Kharlamova, T. A., Shamov, A. G., Shwartz, B. A., Shekhtman, L. I., Shusharo, A. I., Yushkov, A. N.

“…The KEDR detector is a universal magnetic detector designed for studying the c - and b -quarks and two-photon physics, and is employed at the VEPP-4M e + e −…”
Get full text

First results of the two-phase argon avalanche detector performance with CsI photocathode by Bondar, A., Buzulutskov, A., Grebenuk, A., Pavlyuchenko, D., Snopkov, R., Tikhonov, Y.

“…The performance of a two-phase Ar avalanche detector with CsI photocathode was studied, with regard to potential applications in coherent neutrino-nucleus…”
Get full text

A two-phase argon avalanche detector operated in a single electron counting mode by Bondar, A., Buzulutskov, A., Grebenuk, A., Pavlyuchenko, D., Snopkov, R., Tikhonov, Y., Kudryavtsev, V.A., Lightfoot, P.K., Spooner, N.J.C.

“…The performance of a two-phase Ar avalanche detector in a single electron counting mode was studied, with regard to potential application in coherent…”
Get full text

Further studies of two-phase krypton detectors based on Gas Electron Multipliers by Bondar, A., Buzulutskov, A., Pavlyuchenko, D., Snopkov, Rostislav, Tikhonov, Yuri

“…We further study the performance of cryogenic two-phase avalanche detectors, based on Gas Electron Multipliers (GEMs) and operated in an electron-avalanching…”
Get full text

Performance of the ATLAS liquid argon endcap calorimeter in the pseudorapidity region 2.5 < | η | < 4.0 in beam tests by Pinfold, J., Soukup, J., Cojocaru, C., Khakzad, M., Oakham, G., Schram, M., Vincter, M.G., Datskov, V., Drobin, V., Fedorov, A., Javadov, N., Kalinnikov, V., Kakurin, S., Kazarinov, M., Kukhtin, V., Neganov, A., Petrova, L., Shilov, S., Shalyugin, A., Bruncko, D., Kladiva, E., Stavina, P., Strizenec, P., Barreiro, F., Gabaldon, C., Labarga, F., Nebot, E., Rodier, S., Belkin, A., Heldmann, M., Schliephake, T., Schroff, D., Zeitnitz, C., Pralavorio, P., Raymond, M., Resende, B., Sauvage, D., Serfon, C., Toth, J., Delsart, P., Leroy, C., Akimov, A., Blagov, M., Komar, A., Snesarev, A., Speransky, M., Yakimenko, M., Epshtein, V., Khovansky, V., Shatalov, P., Aderholz, M., Barillari, T., Cwienk, W., Fischer, A., Habring, J., Kiryunin, A., Mooshofer, P., Oberlack, H., Schacht, P., Chen, T., Ping, J., Qi, M., Kazanin, V., Maslennikov, A., Pospelov, G., Snopkov, R., Soukharev, A., Talyshev, A., Tikhonov, Y., Cavalleri, P., Schwemling, P., Chekulaev, S., Denisov, S., Evdokimov, V., Levitsky, M., Minaenko, A., Mitrofanov, G., Moiseev, A., Pleskatch, A., Zakamsky, L., Bieri, M., O’Neil, D., Rani, J., Schouten, D., Loch, P., Shaver, L., Gorbounov, P., Knecht, N., Mazini, R., Oram, C.J., Wielers, M., Birney, P.S., Fincke-Keeler, M., Ince, T., Kanaya, N., Keeler, R.K., Lenckowski, M., McPherson, R., Shaw, W., Braun, H.M.

“…The pseudorapidity region 2.5 < | η | < 4.0 in ATLAS is a particularly complex transition zone between the endcap and forward calorimeters. A set-up consisting…”
Get full text

Performance of the ATLAS electromagnetic calorimeter end-cap module 0 by Ballansat, J, Bazan, A, Beaugiraud, B, Chollet, F, Delebecque, P, Ghez, P, Girard, C, Kambara, H, Jérémie, A, Jézéquel, S, Lesueur, J, Perrodo, P, Perrot, G, Prast, J, Riccadona, X, Thion, J, Wingerter-Seez, I, Zitoun, R, Citterio, M, Farrell, J, Kierstead, J, Leite, M, Radeka, V, Rahm, D, Rajagopalan, S, Takai, H, Benchekroun, D, Driouichi, C, Beck Hansen, J, Belymam, A, Gianotti, F, Hervas, L, Pailler, P, Schilly, P, Seidl, W, Vuillemin, V, Efthymiopoulos, I, Moneta, L, Hostachy, J.Y, Ohlsson-Malek, F, Cunitz, H, Dodd, J, Negroni, S, Parsons, J.A, Seman, M, Simion, S, Sippach, W, Labarga, L, Rodier, S, Barrillon, P, Benchouk, C, Dinkespiler, B, Djama, F, Jevaud, M, Karst, P, Martin, L, Martin, O, Nicod, D, Repetti, B, Raymond, M, Toth, J, Wielers, M, Delmastro, M, Aulchenko, V, Kazanin, V, Kolachev, G, Maslennikov, A, Tikhonov, Yu, Bourdarios, C, de La Taille, C, Guilhem, G, Hassani, S, Kordas, K, Merkel, B, Richer, J.P, Rousseau, D, Serin, L, Camard, A, Martin, D, Nikolic-Audit, I, Orsini, F, Rossel, F, Schwemling, P, McDonald, J, Abouelouafa, E.M, Ben Mansour, A, Cherkaoui, R, Belorgey, J, Chalifour, M, Renardy, J.F, Schwindling, J, Taguet, J.-P, Clément, C, Lund-Jensen, B, Lundqvist, J, Megner, L, Pearce, M, Egdemir, J, Rijssenbeek, M, Steffens, J

“…The construction and beam test results of the ATLAS electromagnetic end-cap calorimeter pre-production module 0 are presented. The stochastic term of the…”
Get full text

Performance of the ATLAS liquid argon endcap calorimeter in the pseudorapidity region in beam tests by Pinfold, J., Soukup, J., Archambault, J.P., Cojocaru, C., Khakzad, M., Oakham, G., Schram, M., Vincter, M.G., Datskov, V., Drobin, V., Fedorov, A., Golubykh, S., Javadov, N., Kalinnikov, V., Kakurin, S., Kazarinov, M., Kukhtin, V., Ladygin, E., Lazarev, A., Neganov, A., Petrova, L., Pisarev, I., Rousakovitch, N., Serochkin, E., Shilov, S., Shalyugin, A., Usov, Yu, Bruncko, D., Kladiva, E., Stavina, P., Strizenec, P., Barreiro, F., Gabaldon, C., Labarga, F., Nebot, E., Oliver, C., Rodier, S., del Peso, J., Belkin, A., Heldmann, M., Koepke, L., Othegraven, R., Schliephake, T., Schroff, D., Secker, H., Thomas, J., Zeitnitz, C., Benchouk, C., Djama, F., Hubaut, F., Monnier, E., Niess, V., Pralavorio, P., Raymond, M., Resende, B., Sauvage, D., Serfon, C., Tisserant, S., Toth, J., Azuelos, G., Delsart, P., Leroy, C., Mehdiyev, R., Akimov, A., Blagov, M., Komar, A., Snesarev, A., Speransky, M., Sulin, V., Yakimenko, M., Epshtein, V., Khovansky, V., Shatalov, P., Aderholz, M., Barillari, T., Cwienk, W., Fischer, A., Habring, J., Huber, J., Karev, A., Kiryunin, A., Kurchaninov, L., Menke, S., Mooshofer, P., Oberlack, H., Salihagic, D., Schacht, P., Chen, T., Ping, J., Qi, M., Kazanin, V., Malyshev, V., Maslennikov, A., Pospelov, G., Snopkov, R., Soukharev, A., Talyshev, A., Tikhonov, Y., Cavalleri, P., Schwemling, P.

Get full text

Performance of the ATLAS electromagnetic calorimeter barrel module 0 by Aubert, B., Ballansat, J., Beaugiraud, B., Boniface, J., Colas, J., Delebecque, P., Di Ciaccio, L., El Kacimi, M., Gaumer, O., Girard, C., Gouanère, M., Kambara, H., Lesueur, J., Massol, N., Moynot, M., Neukermans, L., Poggioli, L., Przysiezniak, H., Sauvage, G., Thion, J., Wingerter-Seez, I., Zolnierowski, Y., Chen, H., Gordon, H., Hackenburg, B., Kierstead, J., Leite, M., Lissauer, D., Makowiecki, D., Rahm, D., Rajagopalan, S., Rescia, S., Stumer, I., Yip, K., Driouichi, C., Hakimi, M., Bremer, J., Chevalley, J.L., Hervas, L., Marin, C.P., Vossebeld, J., Clark, A., Efthymiopoulos, I., Moneta, L., Belhorma, B., Collot, J., de Saintignon, P., Gallin-Martel, M.L., Martin, P., Muraz, J.F., Ohlsson-Malek, F., Cartiglia, N., Negroni, S., Simion, S., Willis, W., Labarga, L., Rodier, S., del Peso, J., Barrillon, P., Chekhtman, A., Dinkespiler, B., Duval, P.Y., Le Van Suu, A., Martin, O., Mirea, A., Nicod, D., Pralavorio, P., Tisserant, S., Wielers, M., Battistoni, G., Perini, L., Tartarelli, G.F., Kolachev, G., Malyshev, V., Maslennikov, A., Snopkov, R., Bourdarios, C., Guilhem, G., Jacquier, Y., Parrour, G., Rousseau, D., Seguin-Moreau, N., Astesan, F., Canton, B., Hubaut, F., Laforge, B., Nikolic-Audit, I., Orsini, F., Cleland, W., McDonald, J., Ben Mansour, A., Cherkaoui, R., El Mouahhidi, Y., Ghazlane, H., Idrissi, A., Bernard, R., Renardy, J.F., Teiger, J., Engelmann, R., Steffens, J.

“…The construction and performance of the barrel pre-series module 0 of the future ATLAS electromagnetic calorimeter at the LHC is described. The signal…”
Get full text

Erratum to “Performance of the ATLAS electromagnetic calorimeter barrel module 0” [Nucl. Instr. and Meth. A 500 (2003) 202–231] by Aubert, B., Ballansat, J., Beaugiraud, B., Boniface, J., Colas, J., Delebecque, P., Di Ciaccio, L., El Kacimi, M., Gaumer, O., Girard, C., Gouanère, M., Kambara, H., Lesueur, J., Massol, N., Moynot, M., Neukermans, L., Poggioli, L., Przysiezniak, H., Sauvage, G., Thion, J., Wingerter-Seez, I., Zolnierowski, Y., Chen, H., Gordon, H., Hackenburg, B., Kierstead, J., Lissauer, D., Makowiecki, D., Rahm, D., Rajagopalan, S., Rescia, S., Stumer, I., Yip, K., Driouichi, C., Bremer, J., Chevalley, J.L., Hervas, L., Marin, C.P., Vossebeld, J., Clark, A., Efthymiopoulos, I., Moneta, L., Belhorma, B., Collot, J., de Saintignon, P., Gallin-Martel, M.L., Martin, P., Muraz, J.F., Ohlsson-Malek, F., Cartiglia, N., Negroni, S., Simion, S., Willis, W., Labarga, L., Rodier, S., del Peso, J., Barrillon, P., Chekhtman, A., Dinkespiler, B., Duval, P.Y., Le Van Suu, A., Martin, O., Mirea, A., Nicod, D., Pralavorio, P., Tisserant, S., Wielers, M., Bonivento, W., Carminati, L., Costa, G., Delmastro, M., Mandelli, L., Resconi, S., Snopkov, R., Talyshev, A., Augé, E., Guilhem, G., Jacquier, Y., Kordas, K., Parrour, G., Puzo, P., Richer, J.P., Astesan, F., Canton, B., Hubaut, F., Laforge, B., Nikolic-Audit, I., Orsini, F., Cleland, W., McDonald, J., Ben Mansour, A., Cherkaoui, R., El Mouahhidi, Y., Ghazlane, H., Idrissi, A., Bernard, R., Renardy, J.F., Teiger, J., Engelmann, R., Steffens, J.

Get full text

Results from a new combined test of an electromagnetic liquid argon calorimeter with a hadronic scintillating-tile calorimeter by Albiol, F., Amaral, P., Ambrosini, G., Aubert, B., Augé, E., Badaud, F., Baisin, L., Battistoni, G., Bee, C., Blanchot, G., Bogush, A., Bosman, M., Breton, D., Budagov, J., Burdin, S., Caloba, L., Canton, B., Cases, R., Castillo, M.V., Cavalli-Sforza, M., Chalifour, M., Cogswell, F., Colas, J., Collot, J., Cologna, S., Daudon, F., Davidek, T., Delagnes, E., de la Taille, C., Girolamo, B.Di, Djama, F., Dolezal, Z., Efthymiopoulos, I., Etienne, F., Evans, H., Eynard, G., Fedyakin, N., Flaminio, V., Fournier, D., Fumagalli, G., Gildemeister, O., Glagolev, V., Gonzalez, V., Gordeev, A., Grabsky, V., Grauges, E., Grenier, Ph, Jon-And, K., Jones, R., Juste, A., Khokhlov, Yu, Khubua, J., Kolachev, G., Labarga, L., Lami, S., Dortz, O.Le, Lefebvre, M., Leflour, T., Li, J., Lobkowicz, F., Amengual, J.M.Lopez, Makowiecki, D., Mandelli, L., Mapelli, L., Miller, R., Minashvili, I., Montarou, G., Mosidze, M., Onofre, A., Pantea, D., Parsons, J., Pilcher, J., Pinhao, J., Plothow-Besch, H., Proudfoot, J., Pukhov, O., Renzoni, G., Resconi, S., Riu, I., Roda, C., Russakovich, N., Sawyer, L., Seixas, J.M., Seman, M., Semenov, A., Silva, J., Soustruznik, K., Spiwoks, R., Studenov, S., Taguet, J.P., Tang, F., Tardell, S., Tisserand, V., Tisserant, S., Topilin, N., Turcotte, M., Vartapetian, A., Vinogradov, V., Vorozhtsov, S., Yamdagni, N.

“…A new combined test of an electromagnetic liquid argon accordion calorimeter and a hadronic scintillating-tile calorimeter was carried out at the CERN SPS…”
Get full text