SARTORI, EMANUELE
 Distribuzione geografica
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Continente #
NA - Nord America 17.138
AS - Asia 10.298
EU - Europa 5.143
AF - Africa 1.726
SA - Sud America 1.527
OC - Oceania 172
Continente sconosciuto - Info sul continente non disponibili 73
Totale 36.077
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Nazione #
US - Stati Uniti d'America 16.208
SG - Singapore 3.211
CN - Cina 1.715
VN - Vietnam 1.642
IT - Italia 1.329
HK - Hong Kong 1.209
BR - Brasile 901
DE - Germania 550
FI - Finlandia 383
FR - Francia 368
IN - India 364
GB - Regno Unito 277
PL - Polonia 247
NL - Olanda 225
BD - Bangladesh 202
RU - Federazione Russa 202
JP - Giappone 149
BJ - Benin 147
IQ - Iraq 144
CA - Canada 141
SE - Svezia 139
AR - Argentina 138
TR - Turchia 128
ZA - Sudafrica 126
MX - Messico 120
ES - Italia 117
PH - Filippine 97
AT - Austria 91
UA - Ucraina 88
TW - Taiwan 87
SA - Arabia Saudita 85
ID - Indonesia 83
KR - Corea 82
CO - Colombia 79
EC - Ecuador 78
IE - Irlanda 74
PK - Pakistan 71
GR - Grecia 63
VE - Venezuela 60
UZ - Uzbekistan 59
AO - Angola 58
AZ - Azerbaigian 58
CI - Costa d'Avorio 57
KZ - Kazakistan 57
PY - Paraguay 56
IL - Israele 55
CZ - Repubblica Ceca 54
JM - Giamaica 54
MY - Malesia 54
EG - Egitto 53
TN - Tunisia 53
AU - Australia 50
MA - Marocco 50
MD - Moldavia 50
PE - Perù 50
TH - Thailandia 50
CL - Cile 49
CR - Costa Rica 49
JO - Giordania 49
PS - Palestinian Territory 49
AL - Albania 48
KE - Kenya 48
NP - Nepal 48
UY - Uruguay 48
HR - Croazia 47
CH - Svizzera 46
CV - Capo Verde 46
PA - Panama 46
AE - Emirati Arabi Uniti 45
BE - Belgio 45
BF - Burkina Faso 45
GH - Ghana 45
HU - Ungheria 45
ML - Mali 45
BO - Bolivia 44
DK - Danimarca 44
DZ - Algeria 44
ET - Etiopia 44
RS - Serbia 44
SN - Senegal 44
AM - Armenia 43
BY - Bielorussia 43
LV - Lettonia 43
DO - Repubblica Dominicana 42
RO - Romania 42
SK - Slovacchia (Repubblica Slovacca) 42
CD - Congo 41
MK - Macedonia 41
NI - Nicaragua 41
AF - Afghanistan, Repubblica islamica di 39
GA - Gabon 39
GM - Gambi 39
LA - Repubblica Popolare Democratica del Laos 39
CM - Camerun 38
CW - ???statistics.table.value.countryCode.CW??? 38
GT - Guatemala 38
KH - Cambogia 38
ME - Montenegro 38
MU - Mauritius 38
TT - Trinidad e Tobago 38
Totale 34.245
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Città #
Ashburn 2.426
San Jose 2.322
Singapore 1.944
Fairfield 1.693
Hong Kong 1.087
Chandler 897
Woodbridge 818
Houston 752
Seattle 686
Cambridge 608
Ann Arbor 600
Ho Chi Minh City 533
Wilmington 521
Los Angeles 420
Beijing 418
Hanoi 412
Padova 328
New York 279
Boardman 245
Santa Clara 167
Lauterbourg 166
Cotonou 144
Munich 133
San Diego 131
Helsinki 130
Princeton 123
Medford 121
São Paulo 111
Lappeenranta 106
Warsaw 106
Da Nang 104
Bytom 100
Des Moines 95
Orem 91
Tokyo 91
Chicago 90
Buffalo 83
Roxbury 79
Haiphong 74
Turku 74
Milan 70
Johannesburg 68
London 67
Denver 65
Frankfurt am Main 64
Montreal 64
Hefei 63
Dallas 61
Nanjing 61
Baghdad 60
Abidjan 56
Stockholm 55
Chennai 54
Dublin 54
Baku 53
Nuremberg 53
Tashkent 53
Poplar 52
Rome 51
Brooklyn 50
Vienna 50
Luanda 49
Amman 46
Redondo Beach 46
Bamako 45
Phoenix 44
Guangzhou 43
Amsterdam 42
Boston 42
Dakar 42
San José 42
Atlanta 41
Panama City 41
Council Bluffs 40
Mexico City 40
Nairobi 39
Accra 38
Addis Ababa 38
Jeddah 38
Libreville 38
Dushanbe 36
Kaohsiung City 36
Montevideo 36
Padua 36
Lima 35
Managua 35
Phnom Penh 35
Praia 35
San Francisco 35
Venice 35
Vientiane 35
Yerevan 35
Kinshasa 34
Riga 34
Athens 33
Ouagadougou 33
Toronto 33
Bridgetown 32
Cairo 32
Castries 32
Totale 22.013
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Nome #
Progress in the ITER neutral beam test facility 454
A substantial step forward in the realization of the ITER HNB system: The ITER NBI Test Facility 387
Start of SPIDER operation towards ITER neutral beams 375
SPIDER in the roadmap of the ITER neutral beams 373
The PRIMA Test Facility: SPIDER and MITICA test-beds for ITER neutral beam injectors 362
First operation in SPIDER and the path to complete MITICA 353
SPIDER, the Negative Ion Source Prototype for ITER: Overview of Operations and Cesium Injection 345
Overview of the RFX-mod fusion science programme 343
First operations with caesium of the negative ion source SPIDER 343
Neutralisation and transport of negative ion beams: physics and diagnostics 342
Detailed design optimization of the MITICA negative ion accelerator in view of the ITER NBI 324
Plasma characterization of a Hall effect thruster for a negative ion source concept 321
Improvements of the versatile multiaperture negative ion source NIO1 317
Complete compensation of criss-cross deflection in a negative ion accelerator by magnetic technique 317
Negative ion beam source as a complex system: identification of main processes and key interdependence 310
Diagnostics of caesium emission from SPIDER caesium oven prototype 309
On the road to ITER NBIs: SPIDER improvement after first operation and MITICA construction progress 308
Extraction of many H - beamlets from ion source NIO1 306
Characterization of the SPIDER Cs oven prototype in the CAesium Test Stand for the ITER HNB negative ion sources 305
The ITER Neutral Beam Test Facility toward SPIDER operation 298
Particle Beams as Controllable Complex Systems: Application of the Network Theory 292
First experiments with the negative ion source NIO1 288
Improving a negative ion accelerator for next generation of neutral beam injectors: Results of QST-Consorzio RFX collaborative experiments 287
Study, analysis, design and diagnostics of plasma and beam facing components of fusion devices 285
Beam and installation improvements of the NIO1 ion source 284
Lessons learned after three years of SPIDER operation and the first MITICA integrated tests 283
MITICA intermediate electrostatic shield: Concept design, development, and first experimental tests identification 283
Analytical study of caesium-wall interaction parameters within a hydrogen plasma 279
Progress in the realization of the PRIMA neutral beam test facility 275
Optimizing the ITER NBI ion source by dedicated RF driver test stand 273
The NIO1 negative ion source: Investigation and operation experience 268
Numerical investigation of the early operational phase of the negative ion test facility SPIDER: Beam features 264
Corrigendum to “Status of SPIDER beam source after the first 3.5 years of operation” [Fusion Engineering and Design, Volume 192, July 2023, 113831] (Fusion Engineering and Design (2023) 192, (S0920379623004131), (10.1016/j.fusengdes.2023.113831)) 264
Experimental experience and improvement of NIO1 H− ion source 261
Alternative concept of an efficient negative ion source for neutral beams 255
Conceptual design of the DEMO neutral beam injectors: Main developments and R&D achievements 252
Highlights of recent SPIDER results and improvements 250
CRISP: A compact RF ion source prototype for emittance scanner testing 249
Thermal characterization of the SPIDER diagnostic calorimeter 246
Interpreting the dynamic equilibrium during evaporation in a cesium environment 243
Overview of the RFX-mod contribution to the international Fusion Science Program 242
A suite of diagnostics to validate and optimize the prototype ITER neutral beam injector 238
Benchmark of 3D multi-beamlet numerical models for the optics design of negative ion accelerators 237
Conceptual design of the Gas Injection and Vacuum System for DTT NBI 236
Electrostatic steering and beamlet aiming in large neutral beam injectors 235
Determination of the meniscus shape of a negative ion beam from an experimentally obtained beam profile 234
Final design of electrostatic probes for MITICA beam line components 234
Investigations on Cs dispersion and Mo coating on SPIDER components 232
Design and development of an Allison type emittance scanner for the SPIDER ion source 232
Development of non evaporable getter pumps for large hydrogen throughput and capacity in high vacuum regimes 230
Numerical simulations of the first operational conditions of the negative ion test facility SPIDER 228
Preliminary studies for a beam-generated plasma neutralizer test in NIO1 227
A novel plasma source concept for negative ion generation in neutral beam injectors for fusion applications 225
Overview on electrical issues faced during the SPIDER experimental campaigns 222
Design and R&D for manufacturing the MITICA neutraliser and electron dump 220
Realization of a Magnetically Compensated Extraction Grid for performance improvement of next generation NBI 220
Correlation of source parameters and beam properties in the early operation of the full size ITER negative ion beam source 219
Study of electron transport across the magnetic filter of NIO1 negative ion source 219
Compensation of Beamlet Deflections and Focusing Methods in the Electrostatic Accelerator of MITICA Neutral Beam Injector 217
Compensation of beamlet deflections and focusing methods in the electrostatic accelerator of MITICA neutral beam injector 217
Latest experimental and theoretical advances in the production of negative ions in caesium-free plasmas 217
Design of an optimised movable electrostatic diagnostic for the investigation of plasma properties in a large negative ion source 216
Experimental validation of an innovative deflection compensation method in a multi-beamlet negative-ion accelerator 214
Characterization of ZAO® sintered getter material for use in fusion applications 214
First measurements of beam plasma in NIFS test stand 212
Strategy for Vacuum Insulation Tests of MITICA 1 MV Electrostatic Accelerator 211
Status of SPIDER beam source after the first 3.5 years of operation 209
Optics of the NIFS negative ion source test stand by infrared calorimetry and numerical modelling 208
Development of a set of movable electrostatic probes to characterize the plasma in the ITER neutral beam negative-ion source prototype 208
Design of a large nonevaporable getter pump for the full size ITER beam source prototype 207
Simulation and measurement of rarefied gas flow and neutral density profiles through a large multiaperture multigrid negative ion accelerator 207
Comparative study of beam losses and heat loads reduction methods in MITICA beam source 205
Sensitivity Analysis of the Off-Normal Conditions of the SPIDER Accelerator 205
SPIDER beam dump as diagnostic of the particle beam 204
Energy recovery from mixed H-/H0/H+ beams and collector simulations 204
Thermo-hydraulic analyses and fatigue verification of the Electrostatic Residual Ion Dump for the ITER HNB 203
Initial port integration concept for EC and NB systems in EU DEMO tokamak 203
Simulation of the beamline thermal measurements to derive particle beam parameters in the ITER neutral beam test facility 202
Experimental Validation of the 3-D Molecular Flow Code AVOCADO 202
A Temperature Programmed Desorption Diagnostic for SPIDER Cs Operations 198
Conceptual design of scalable vacuum pump to validate sintered getter technology for future NBI application 197
Langmuir probe characterization of the NIO1 ion source plasma 196
Development of an energy analyzer as diagnostic of beam-generated plasma in negative ion beam systems 195
Beam transport and interactions with beam-line components in MITICA injector 193
A new deflection technique applied to an existing scheme of electrostatic accelerator for high energy neutral beam injection in fusion reactor devices 191
Improved Conceptual Design of the Beamline for the DTT Neutral Beam Injector 191
Development of a Triple Langmuir Probe for Plasma Characterization in SPIDER 190
Status of physics design of the HNB accelerator for ITER 190
Ion beam transport: modelling and experimental measurements on a large negative ion source in view of the ITER heating neutral beam 189
Analysis of current-voltage characteristics for Langmuir probes immersed in an ion beam 189
Experimental validation of a molecular flow code with the ARIANNA setup 189
Steady state thermal-hydraulic analyses of the MITICA cooling circuits 188
Characterization of plasmas in negative ion sources using a Cs-H Collisional Radiative model 187
Design and R&D for manufacturing the beamline components of MITICA and ITER HNBs 187
AVOCADO: A numerical code to calculate gas pressure distribution 186
Investigations on Caesium Dispersion and Molybdenum Coating on SPIDER Components 185
A real case of complex network controllability: The NIO1 ion beam source 184
Design and Development of a Diagnostic System for a Non-Intercepting Direct Measure of the SPIDER Ion Source Beamlet Current 184
System for voltage control and for data acquisition of retarding field energy analyzer 184
Spatially resolved diagnostics for optimization of large ion beam sources 183
Totale 24.664
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Categoria #
all - tutte 101.581
article - articoli 80.651
book - libri 0
conference - conferenze 0
curatela - curatele 0
other - altro 0
patent - brevetti 0
selected - selezionate 0
volume - volumi 7.371
Totale 189.603
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Totale Lug Ago Sett Ott Nov Dic Gen Feb Mar Apr Mag Giu
2020/2021430 0 0 0 0 0 0 0 0 0 0 317 113
2021/20221.603 33 54 176 65 87 178 34 193 196 50 144 393
2022/20231.741 291 213 29 232 232 181 13 114 207 45 129 55
2023/20241.396 49 158 155 122 82 213 116 64 49 101 167 120
2024/20254.622 73 301 224 130 364 159 216 461 470 309 681 1.234
2025/202620.511 975 1.300 2.583 3.296 2.224 943 3.367 1.533 2.434 1.167 689 0
Totale 36.552