☆ 4.7 Article Proceedings Paper

Nuclear technology aspects of ITER vessel-mounted diagnostics

JOURNAL OF NUCLEAR MATERIALS (2011)

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JOURNAL OF NUCLEAR MATERIALS

Volume 417, Issue 1-3, Pages 780-786

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DOI: 10.1016/j.jnucmat.2011.01.081

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Materials Science, Multidisciplinary Nuclear Science & Technology

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Abstract

ITER has diagnostics with machine protection, basic and advanced control, and physics roles. Several are distributed on the inner and outer periphery of the vacuum vessel. They have reduced maintainability compared to diagnostics in ports. They also endure some of the highest nuclear and EM loads of any diagnostic for the longest time. They include: Inductive sensors for time-integrated and raw inductive measurements; Steady-state magnetic sensors to correct drifts of the inductive sensors; Bolometer cameras to provide electromagnetic radiation tomography; Microfission chambers and neutron activation stations to provide fusion power and fluence; MM-wave reflectometry to measure the plasma density profile and the plasma-wall distance and; Wiring to service magnetics, bolometry, and in-vessel instrumentation. This paper summarises the key technological issues these diagnostics arising from the nuclear environment, recent progress and outstanding R&D for each system. (C) 2011 ITER Organization. Published by Elsevier B.V. All rights reserved.

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Luna, E. de la Luna, M. Lungaroni, C. P. Lungu, T. Lunt, V Lutsenko, B. Lyons, A. Lyssoivan, M. Machielsen, E. Macusova, R. Maenpaa, C. F. Maggi, R. Maggiora, M. Magness, S. Mahesan, H. Maier, R. Maingi, K. Malinowski, P. Manas, P. Mantica, M. J. Mantsinen, J. Manyer, A. Manzanares, Ph Maquet, G. Marceca, N. Marcenko, C. Marchetto, O. Marchuk, A. Mariani, G. Mariano, M. Marin, M. Marinelli, T. Markovic, D. Marocco, L. Marot, S. Marsden, J. Marsh, R. Marshall, L. Martellucci, A. Martin, A. J. Martin, R. Martone, S. Maruyama, M. Maslov, S. Masuzaki, S. Matejcik, M. Mattei, G. F. Matthews, D. Matveev, E. Matveeva, A. Mauriya, F. Maviglia, M. Mayer, M-L Mayoral, S. Mazzi, C. Mazzotta, R. McAdams, P. J. McCarthy, K. G. McClements, J. McClenaghan, P. McCullen, D. C. McDonald, D. McGuckin, D. McHugh, G. McIntyre, R. McKean, J. McKehon, B. McMillan, L. McNamee, A. McShee, A. Meakins, S. Medley, C. J. Meekes, K. Meghani, A. G. Meigs, G. Meisl, S. Meitner, S. Menmuir, K. Mergia, S. Merriman, Ph Mertens, S. Meshchaninov, A. Messiaen, R. Michling, P. Middleton, D. Middleton-Gear, J. Mietelski, D. Milanesio, E. Milani, F. Militello, A. Militello Asp, J. Milnes, A. Milocco, G. Miloshevsky, C. Minghao, S. Minucci, I Miron, M. Miyamoto, J. Mlynar, V Moiseenko, P. Monaghan, I Monakhov, T. Moody, S. Moon, R. Mooney, S. Moradi, J. Morales, R. B. Morales, S. Mordijck, L. Moreira, L. Morgan, F. Moro, J. Morris, K-M Morrison, L. Msero, D. Moulton, T. Mrowetz, T. Mundy, M. Muraglia, A. Murari, A. Muraro, N. Muthusonai, Yong-Su Na, F. Nabais, M. Naden, J. Naish, R. Naish, F. Napoli, E. Nardon, V Naulin, M. F. F. Nave, I Nedzelskiy, G. Nemtsev, V Nesenevich, I Nestoras, R. Neu, V. S. Neverov, S. Ng, M. Nicassio, A. H. Nielsen, D. Nina, D. Nishijima, C. Noble, C. R. Nobs, M. Nocente, D. Nodwell, K. Nordlund, H. Nordman, R. Normanton, J. M. Noterdaeme, S. Nowak, E. Nunn, H. Nystrom, M. Oberparleiter, B. Obryk, J. O'Callaghan, T. Odupitan, H. J. C. Oliver, R. Olney, M. O'Mullane, J. Ongena, E. Organ, F. Orsitto, J. Orszagh, T. Osborne, R. Otin, T. Otsuka, A. Owen, Y. Oya, M. Oyaizu, R. Paccagnella, N. Pace, L. W. Packer, S. Paige, E. Pajuste, D. Palade, S. J. P. Pamela, N. Panadero, E. Panontin, A. Papadopoulos, G. Papp, P. Papp, V. V. Parail, C. Pardanaud, J. Parisi, F. Parra Diaz, A. Parsloe, M. Parsons, N. Parsons, M. Passeri, A. Patel, A. Pau, G. Pautasso, R. Pavlichenko, A. Pavone, E. Pawelec, C. Paz Soldan, A. Peacock, M. Pearce, E. Peluso, C. Penot, K. Pepperell, R. Pereira, T. Pereira, E. Perelli Cippo, P. Pereslavtsev, C. Perez von Thun, V Pericoli, D. Perry, M. Peterka, P. Petersson, G. Petravich, N. Petrella, M. Peyman, M. Pillon, S. Pinches, G. Pintsuk, W. Pires de Sa, A. Pires dos Reis, C. Piron, L. Pionr, A. Pironti, R. Pitts, K. L. van de Plassche, N. Platt, V Plyusnin, M. Podesta, G. Pokol, F. M. Poli, O. G. Pompilian, S. Popovichev, M. Poradzinski, M. T. Porfiri, M. Porkolab, C. Porosnicu, M. Porton, G. Poulipoulis, I Predebon, G. Prestopino, C. Price, D. Price, M. Price, D. Primetzhofer, P. Prior, G. Provatas, G. Pucella, P. Puglia, K. Purahoo, I Pusztai, O. Putignano, T. Puetterich, A. Quercia, E. Rachlew, G. Radulescu, V Radulovic, M. Rainford, P. Raj, G. Ralph, G. Ramogida, D. Rasmussen, J. J. Rasmussen, G. Ratta, S. Ratynskaia, M. Rebai, D. Refy, R. Reichle, M. Reinke, D. Reiser, C. Reux, S. Reynolds, M. L. Richiusa, S. Richyal, D. Rigamonti, F. G. Rimini, J. Risner, M. Riva, J. Rivero-Rodriguez, C. M. Roach, R. Robins, S. Robinson, D. Robson, R. Rodionov, P. Rodrigues, M. Rodriguez Ramos, P. Rodriguez-Fernandez, F. Romanelli, M. Romanelli, S. Romanelli, J. Romazanov, R. Rossi, S. Rowe, D. Rowlands, M. Rubel, G. Rubinacci, G. Rubino, L. Ruchko, M. Ruiz, J. Ruiz Ruiz, C. Ruset, J. Rzadkiewicz, S. Saarelma, E. Safi, A. Sahlberg, M. Salewski, A. Salmi, R. Salmon, F. Salzedas, I Sanders, D. Sandiford, B. Santos, A. Santucci, K. Sarkimaki, R. Sarwar, I Sarychev, O. Sauter, P. Sauwan, N. Scapin, F. Schluck, K. Schmid, S. Schmuck, M. Schneider, P. A. Schneider, D. Schworer, G. Scott, M. Scott, D. Scraggs, S. Scully, M. Segato, Jaemin Seo, G. Sergienko, M. Sertoli, S. E. Sharapov, A. Shaw, H. Sheikh, U. Sheikh, A. Shepherd, A. Shevelev, P. Shigin, K. Shinohara, S. Shiraiwa, D. Shiraki, M. Short, G. Sias, S. A. Silburn, A. Silva, C. Silva, J. Silva, D. Silvagni, D. Simfukwe, J. Simpson, D. Sinclair, S. K. Sipila, A. C. C. Sips, P. Siren, A. Sirinelli, H. Sjostrand, N. Skinner, J. Slater, N. Smith, P. Smith, J. Snell, G. Snoep, L. Snoj, P. Snyder, S. Soare, E. R. Solano, V Solokha, A. Somers, C. Sommariva, K. Soni, E. Sorokovoy, M. Sos, J. Sousa, C. Sozzi, S. Spagnolo, T. Spelzini, F. Spineanu, D. Spong, D. Sprada, S. Sridhar, C. Srinivasan, G. Stables, G. Staebler, I Stamatelatos, Z. Stancar, P. Staniec, G. Stankunas, M. Stead, E. Stefanikova, A. Stephen, J. Stephens, P. Stevenson, M. Stojanov, P. Strand, H. R. Strauss, S. Strikwerda, P. Strom, C. Stuart, W. Studholme, M. Subramani, E. Suchkov, S. Sumida, H. J. Sun, T. E. Susts, J. Svensson, J. Svoboda, R. Sweeney, D. Sytnykov, T. Szabolics, G. Szepesi, B. Tabia, T. Tadic, B. Tal, T. Tala, A. Tallargio, P. Tamain, H. Tan, K. Tanaka, W. Tang, M. Tardocchi, D. Taylor, A. S. Teimane, G. Telesca, N. Teplova, A. Teplukhina, D. Terentyev, A. Terra, D. Terranova, N. Terranova, D. Testa, E. Tholerus, J. Thomas, E. Thoren, A. Thorman, W. Tierens, R. A. Tinguely, A. Tipton, H. Todd, M. Tokitani, P. Tolias, M. Tomes, A. Tookey, Y. Torikai, U. von Toussaint, P. Tsavalas, D. Tskhakaya, I Turner, M. Turner, M. M. Turner, M. Turnyanskiy, G. Tvalashvili, S. Tyrrell, M. Tyshchenko, A. Uccello, V Udintsev, G. Urbanczyk, A. Vadgama, D. Valcarcel, M. Valisa, P. Vallejos Olivares, O. Vallhagen, D. Van Eester, J. Varje, S. Vartanian, T. Vasilopoulou, G. Vayakis, M. Vecsei, J. Vega, S. Ventre, G. Verdoolaege, C. Verona, G. Verona Rinati, E. Veshchev, N. Vianello, E. Viezzer, L. Vignitchouk, R. Vila, R. Villari, F. Villone, P. Vincenzi, I Vinyar, B. Viola, A. J. Virtanen, A. Vitins, Z. Vizvary, G. Vlad, M. Vlad, P. Vondracek, P. de Vries, B. Wakeling, N. R. Walkden, M. Walker, R. Walker, M. Walsh, E. Wang, N. Wang, S. Warder, R. Warren, J. Waterhouse, C. Watts, T. Wauters, A. Weckmann, H. Wedderburn Maxwell, M. Weiland, H. Weisen, M. Weiszflog, P. Welch, N. Wendler, A. West, M. Wheatley, S. Wheeler, A. Whitehead, D. Whittaker, A. Widdowson, S. Wiesen, J. Wilkinson, J. C. Williams, D. Willoughby, I Wilson, J. Wilson, T. Wilson, M. Wischmeier, P. Wise, G. Withenshaw, A. Withycombe, D. Witts, A. Wojcik-Gargula, E. Wolfrum, R. Wood, C. Woodley, R. Woodley, B. Woods, J. Wright, J. C. Wright, T. Xu, D. Yadikin, M. Yajima, Y. Yakovenko, Y. Yang, W. Yanling, V Yanovskiy, I Young, R. Young, R. J. Zabolockis, J. Zacks, R. Zagorski, F. S. Zaitsev, L. Zakharov, A. Zarins, D. Zarzoso Fernandez, K-D Zastrow, Y. Zayachuk, M. Zerbini, W. Zhang, Y. Zhou, M. Zlobinski, A. Zocco, A. Zohar, V Zoita, S. Zoletnik, V. K. Zotta, I Zoulias, W. Zwingmann, I Zychor

Summary: The JET 2019-2020 scientific and technological programme made use of previous scientific and engineering work to achieve significant research results. The focus was on scenarios for high fusion power and alpha particle physics, consequences of long-term exposure to JET-ILW plasma, and the nuclear technology programme for maximum technological return.

NUCLEAR FUSION (2022)

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Review Optics

Latest experimental and theoretical advances in the production of negative ions in caesium-free plasmas

F. Taccogna, S. Bechu, A. Aanesland, P. Agostinetti, R. Agnello, S. Aleiferis, T. Angot, V Antoni, M. Bacal, M. Barbisan, J. Bentounes, A. Bes, M. Capitelli, G. Cartry, M. Cavenago, R. Celiberto, G. Chitarin, R. Delogu, A. De Lorenzi, F. Esposito, M. Fadone, N. Ferron, G. Fubiani, I Furno, L. Gavilan, P. Guittienne, A. Howling, R. Jacquier, A. Laricchiuta, J. M. Layet, J. L. Lemaire, S. Longo, B. Maurice, P. Minelli, M. Minissale, M. Mitrou, R. Moussaoui, A. Pimazzoni, C. Poggi, D. Rafalskyi, E. Salomon, E. Sartori, M. Sasao, G. Serianni, E. Spada, S. Suweis, P. Svarnas, L. Tahri, M. Ugoletti, V. Variale, P. Veltri

Summary: This review summarizes the latest updates on caesium-free negative ion sources presented during the 63rd Course of the International school of Quantum Electronics of the Ettore Majorana Foundation and European collaborative works. It addresses both theoretical and experimental work performed in the last few years, as well as the complexities involved in the conception of a negative ion source.

EUROPEAN PHYSICAL JOURNAL D (2021)

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Article Physics, Fluids & Plasmas

First operations with caesium of the negative ion source SPIDER

E. Sartori, M. Agostini, M. Barbisan, M. Bigi, M. Boldrin, M. Brombin, R. Casagrande, S. Dal Bello, M. Dan, B. P. Duteil, M. Fadone, L. Grando, A. Maistrello, M. Pavei, A. Pimazzoni, C. Poggi, A. Rizzolo, A. Shepherd, M. Ugoletti, P. Veltri, B. Zaniol, R. Agnello, P. Agostinetti, V. Antoni, D. Aprile, V. Candeloro, C. Cavallini, R. Cavazzana, M. Cavenago, G. Chitarin, S. Cristofaro, M. Dalla Palma, R. Delogu, M. De Muri, S. Denizeau, F. Fellin, A. Ferro, C. Gasparrini, P. Jain, A. Luchetta, G. Manduchi, N. Marconato, D. Marcuzzi, I. Mario, R. Milazzo, R. Pasqualotto, T. Patton, N. Pilan, M. Recchia, A. Rigoni-Garola, B. Segalini, M. Siragusa, M. Spolaore, C. Taliercio, V. Toigo, R. Zagorski, L. Zanotto, M. Zaupa, M. Zuin, G. Serianni

Summary: The paper discusses the current development of the ITER HNB and optimization work on the SPIDER test stand, focusing on the production of H- or D- ions using caesium evaporation and the beam performance during initial operation with caesium. It also presents technical solutions to address limitations of the test stand and investigates the impact of source parameters on caesium effectiveness.

NUCLEAR FUSION (2022)

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Article Physics, Fluids & Plasmas

Strategy for Vacuum Insulation Tests of MITICA 1 MV Electrostatic Accelerator

G. Chitarin, A. Kojima, M. Boldrin, A. Luchetta, D. Marcuzzi, P. Zaccaria, L. Zanotto, V Toigo, D. Aprile, N. Marconato, T. Patton, N. Pilan, P. Barbato, G. Berton, M. Breda, M. Dan, M. Fincato, L. Lotto, A. Rigoni-Garola, E. Sartori, M. Tollin, M. Valente, L. Grando, N. Pomaro, A. De Lorenzi, J. Hiratsuka, M. Ichikawa, M. Kisaki, M. Murayama, G. M. Saquilayan, H. Tobari, N. Umeda, K. Watanabe, M. Kashiwagi

Summary: This article discusses the challenging issue of electrical insulation for the Megavolt ITER Injector and Concept Advancement (MITICA) beam source in vacuum. A specific high-voltage test campaign is being prepared to validate and optimize the voltage holding capability of the insulation, using full-size mockup electrodes. The aim is to reduce the risk related to the HV insulation at 1 MV and develop effective corrections if necessary.

IEEE TRANSACTIONS ON PLASMA SCIENCE (2022)

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Article Physics, Fluids & Plasmas

Pre-Breakdown Phenomena Between Vacuum Insulated Electrodes: The Role of Accumulation Points in the Onset of Microdischarges

N. Pilan, M. Cavenago, G. Chitarin, A. De Lorenzi, C. L. Fontana, O. McCormack, R. Gobbo, M. Fincato, L. Lotto, G. Pesavento, F. Pino, E. Spada, S. Spagnolo, M. Zuin

Summary: This contribution presents recent experimental results obtained at the HV Padova test facility aimed at developing the voltage holding capability of the MITICA accelerator. The experiments showed that microdischarges were primarily caused by the exchange of charged particles between electrode supports and the vacuum vessel.

IEEE TRANSACTIONS ON PLASMA SCIENCE (2022)

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Article Nuclear Science & Technology

A strategy to identify breakdown location in MITICA test facility: results of high voltage test campaign

Loris Zanotto, Marco Boldrin, Giuseppe Chitarin, Mattia Dan, Tommaso Patton, Francesco Santoro, Vanni Toigo, Hiroyuki Tobari, Atsushi Kojima, Hans Decamps

Summary: This paper describes the commissioning and integration tests of the Acceleration Grid Power Supply of the MITICA test facility in Padova, Italy. Stable operation at 700 kV was achieved for the first time, but breakdowns occurred in the HV part and DC generator. A test campaign was conducted to identify the breakdown locations and collect measurement patterns for different cases.

FUSION ENGINEERING AND DESIGN (2023)

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Article Physics, Fluids & Plasmas

Optical Diagnostics for High-Voltage Tests in MITICA

Daniele Aprile, G. Chitarin, L. Lotto, M. Fincato, T. Patton, N. Pilan, M. Valente

Summary: The Neutral Beam Test Facility (NBTF) in Padua, Italy, is dedicated to testing and optimizing the Neutral Beam (NB) Injector for ITER. A full-scale prototype called MITICA is currently under construction at NBTF and aims to demonstrate all the design parameters for ITER, including stable beam operation at 1 MeV. The facility plans to conduct a dedicated campaign in 2022-2023 to test and optimize the stable high voltage holding of 1 MV. This article focuses on the choice and design of diagnostic cameras used during the experiments.

IEEE TRANSACTIONS ON PLASMA SCIENCE (2022)

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Article Physics, Fluids & Plasmas

Upgrade of the Magnetic Fault Detection System of RFX-mod2

Matteo Bonotto, Matteo Brombin, Domenico Abate, Paolo Bettini, Roberto Cavazzana, Giuseppe Chitarin, Luca Grando, Simone Peruzzo, Nicola Pomaro

Summary: This article describes the upgrade of the RGM system, the magnetic fault detection system designed for RFX, to be fully compliant with the new device RFX-mod2, including additional magnetic sensors and redesigned electronic boards using state-of-the-art technologies and components.

IEEE TRANSACTIONS ON PLASMA SCIENCE (2022)

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Article Physics, Fluids & Plasmas

SPIDER, the Negative Ion Source Prototype for ITER: Overview of Operations and Cesium Injection

G. Serianni, E. Sartori, R. Agnello, M. Agostini, M. Barbisan, M. Bigi, M. Boldrin, M. Brombin, V. Candeloro, R. Casagrande, S. Dal Bello, M. Dan, B. P. Duteil, M. Fadone, L. Grando, P. Jain, A. Maistrello, I. Mario, R. Pasqualotto, M. Pavei, A. Pimazzoni, C. Poggi, A. Rizzolo, A. Shepherd, M. Ugoletti, P. Veltri, B. Zaniol, P. Agostinetti, D. Aprile, G. Berton, C. Cavallini, R. Cavazzana, M. Cavenago, G. Chitarin, S. Cristofaro, G. Croci, N. Cruz, M. Dalla Palma, R. Delogu, M. De Muri, M. De Nardi, S. Denizeau, F. Fellin, A. Ferro, E. Gaio, C. Gasparrini, A. Luchetta, F. Lunardon, G. Manduchi, N. Marconato, D. Marcuzzi, O. McCormack, R. Milazzo, A. Muraro, T. Patton, N. Pilan, M. Recchia, A. Rigoni-Garola, F. Santoro, B. Segalini, M. Siragusa, M. Spolaore, C. Taliercio, P. Zaccaria, R. Zagorski, L. Zanotto, M. Zaupa, M. Zuin, V. Toigo

Summary: This contribution provides an overview of recent operations and main results of cesium injection in the SPIDER negative ion source. Experiments without cesium injection were conducted to verify operational parameters and determine the operational region, while preliminary cesium experiments showed increased negative ion current and decreased co-extracted electrons, with control parameters influencing beam uniformity. Non-Gaussian tails were identified in the angular distribution perpendicular to beam propagation direction. A major shutdown is planned for late 2021 to address operational issues and make scheduled modifications, aiming to meet ITER requirements.

IEEE TRANSACTIONS ON PLASMA SCIENCE (2023)

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Article Nuclear Science & Technology

Bolometer sensor holder suitable for ITER-relevant conditions

H. Meister, L. Flicker, L. Puteanus, S. Jahanbakhsh, A. Pataki, F. Penzel

Summary: The ITER bolometer diagnostic is responsible for measuring the total radiation emitted from the plasma. It involves the installation of multiple lines-of-sight in cameras placed around the ITER facility. These cameras have different sizes and types, but they share similar concepts for electrical connections and handling of loads. The sensor holder, made of ceramic, is designed to minimize thermal stresses and facilitate wire-bonded connections between the sensor and electrical circuit.

FUSION ENGINEERING AND DESIGN (2023)

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Article Nuclear Science & Technology

Lessons learned after three years of SPIDER operation and the first MITICA integrated tests

D. Marcuzzi, V. Toigo, M. Boldrin, G. Chitarin, S. Dal Bello, L. Grando, A. Luchetta, R. Pasqualotto, M. Pavei, G. Serianni, L. Zanotto, R. Agnello, P. Agostinetti, M. Agostini, D. Aprile, M. Barbisan, M. Battistella, G. Berton, M. Bigi, M. Brombin, V. Candela, V. Candeloro, A. Canton, R. Casagrande, C. Cavallini, R. Cavazzana, L. Cordaro, N. Cruz, M. Dalla Palma, M. Dan, A. De Lorenzi, R. Delogu, M. De Muri, M. De Nardi, S. Denizeau, M. Fadone, F. Fellin, A. Ferro, E. Gaio, C. Gasparrini, F. Gnesotto, P. Jain, A. La Rosa, D. Lopez-Bruna, R. Lorenzini, A. Maistrello, G. Manduchi, S. Manfrin, N. Marconato, I. Mario, G. Martini, R. Milazzo, T. Patton, S. Peruzzo, N. Pilan, A. Pimazzoni, C. Poggi, N. Pomaro, B. Pouradier-Duteil, M. Recchia, A. Rigoni-Garola, D. Rizzetto, A. Rizzolo, F. Santoro, E. Sartori, B. Segalini, A. Shepherd, M. Siragusa, P. Sonato, A. Sottocornola, E. Spada, S. Spagnolo, M. Spolaore, C. Taliercio, P. Tinti, P. Tomsic, L. Trevisan, M. Ugoletti, M. Valente, M. Valisa, F. Veronese, M. Vignando, P. Zaccaria, R. Zagorski, B. Zaniol, M. Zaupa, M. Zuin, M. Cavenago, D. Boilson, C. Rotti, H. Decamps, F. Geli, A. Sharma, P. Veltri, J. Zacks, M. Simon, F. Paolucci, A. Garbuglia, D. Gutierrez, A. Masiello, G. Mico, C. Labate, P. Readman, E. Bragulat, L. Bailly-Maitre, G. Gomez, G. Kouzmenko, F. Albajar, M. Kashiwagi, H. Tobari, A. Kojima, M. Murayama, S. Hatakeyama, E. Oshita, T. Maejima, N. Shibata, Y. Yamashita, K. Watanabe, N. P. Singh, M. J. Singh, H. Dhola, U. Fantz, B. Heinemann, C. Wimmer, D. Wuenderlich, K. Tsumori, G. Croci, G. Gorini, A. Muraro, M. Rebai, M. Tardocchi, L. Giacomelli, D. Rigamonti, F. Taccogna, D. Bruno, M. Rutigliano, S. Longo, S. Deambrosis, E. Miorin, F. Montagner, A. Tonti, F. Panin

Summary: ITER plans to use two heating neutral beam injectors plus an optional one as part of its auxiliary heating and current drive system. The expected power per injector is higher than existing facilities worldwide. To enable this development, a Neutral Beam Test Facility (NBTF) has been established, consisting of two test beds called SPIDER and MITICA. SPIDER focuses on developing and characterizing efficient negative ion sources, while MITICA is a full-scale prototype of the ITER Neutral Beam Injector. The lessons learned from the NBTF implementation and future perspectives are discussed.

FUSION ENGINEERING AND DESIGN (2023)

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Review Nuclear Science & Technology

Testing of ITER diagnostic pressure gauges in preparation of final design review

F. Mackel, A. Arkhipov, W. Asad, H. Meister, P. Valente, P. Andrew

Summary: Hot cathode ionization gauges are used to measure neutral gas pressures in ITER's vacuum vessel. This article presents the present design and prototype testing of diagnostic pressure gauge (DPG) heads, with a focus on the development of a novel cathode that overcomes previous issues. The new cathode, which uses a zirconium carbide plate as the electron emitter, improves operational stability and accuracy compared to the previous tungsten-rhenium filament. While long-term functioning in the required pressure range has been successfully demonstrated, erosion during permanent operation in hydrogen at high pressures remains a challenge.

FUSION ENGINEERING AND DESIGN (2023)

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Article Instruments & Instrumentation

Calibration and thermal test results of prototype bolometer sensors for ITER fusion reactor

Sina Jahanbakhsh, Jack Davies Hare, Hans Meister, Christian Ingesson, Marcin Majewski, Florian Penzel, Stefan Schmitt, Ulrich Walach, Marc Dubois

Summary: Over the past 10 years, various bolometer sensors have been tested in the IBOVAC facility to develop a sensor suitable for operation in ITER under harsh conditions. The physical properties of the sensors, including cooling time constant tau, normalized heat capacity kappa, and normalized sensitivity sn, have been characterized in vacuum and at temperatures up to 300°C. A Python program has been developed to analyze the data and extract the necessary parameters. The latest prototype sensors for ITER, including self-supporting substrate sensors and supported membrane sensors, have been tested and evaluated, with the supported membrane sensors performing well at temperatures up to 300°C. These findings, along with future tests, will help determine the most suitable sensors for use in ITER.

REVIEW OF SCIENTIFIC INSTRUMENTS (2023)

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Article Nuclear Science & Technology

Electrical diagnostics for high voltage tests in MITICA

T. Patton, D. Aprile, M. Boldrin, G. Chitarin, M. Dan, R. Gobbo, N. Pilan, N. Pomaro, A. Rigoni, M. Valente, L. Zanotto, P. Barbato, M. Fincato, R. Ghiraldelli, L. Lotto, F. Molon, M. Tollin

Summary: ITER is an experimental fusion device that requires two Neutral Beam Injectors (NBIs) to provide plasma heating and current drive. MITICA is a prototype of the ITER Heating Neutral Beams (HNBs), currently under construction in Padova, and is designed to test and optimize the design of the NBIs. During a test campaign at NBTF, a set of electrical diagnostics will be installed to identify breakdown locations and measure microdischarge and arc currents.

FUSION ENGINEERING AND DESIGN (2023)

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Article Chemistry, Analytical

Realization and Tests of Prototype Fluxgate Magnetic Sensors for the ITER Neutral Beam Injectors

Giuseppe Chitarin, Nicolo Marconato, Stefan Mayer

Summary: In the ITER neutral beam injectors, the ion beam may be deflected by the external magnetic field generated by the tokamak, resulting in loss of beam focusing. To address this issue, magnetic shielding and an active correction and compensation coil system will be used to protect the ion source, accelerator, and neutralizer. Magnetic sensors capable of measuring DC and slow variable magnetic fields, while being vacuum-compatible, radiation-hard, and robust, have been developed for monitoring the magnetic field inside the NBI vessel.

SENSORS (2023)

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Proceedings Paper Engineering, Electrical & Electronic

Preparation of the vacuum insulation tests on the MITICA 1 MV electrostatic Accelerator

G. Chitarin, A. Kojima, A. Luchetta, D. Marcuzzi, P. Zaccaria, L. Zanotto, V Toigo, D. Aprile, N. Marconato, T. Patton, N. Pilan, G. Berton, M. Breda, M. Dan, M. Fincato, A. Rigoni-Garola, M. Valente, M. Battistella, M. Boldrin, L. Grando, N. Pomaro, A. De Lorenzi, H. Tobari, N. Umeda, K. Watanabe, M. Kashiwagi

Summary: This paper describes a specific HV test campaign planned to be implemented in the MITICA Vacuum Vessel to address the challenging issue of voltage holding capability at 1 MV. The goal is to reduce risks related to HV insulation at 1 MV and develop effective solutions before the installation of real components.

29TH INTERNATIONAL SYMPOSIUM ON DISCHARGES AND ELECTRICAL INSULATION IN VACUUM (ISDEIV 2020) (2021)

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Article Materials Science, Multidisciplinary

H dissolution and desorption near He-V complexes in W surfaces with different orientations

Liuming Wei, Jingwen Li, Yonggang Li, Qirong Zheng, Fan Cheng, Chuanguo Zhang, Jingyu Li, Gaofeng Zhao, Zhi Zeng

Summary: This study investigates the influence of He-V complexes on H behaviors on different W surfaces using DFT calculations. The results show that H dissolution is most difficult but H trapping is easiest on the W (110) surface, while the opposite is true on the W (111) surface. Moreover, the presence of He-V complexes increases the difficulty of H diffusion from bulk to surface and desorption.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Effect of deposition parameters on characteristics and oxidation behavior of magnetron sputtered Cr coatings

Yan Meng, Song Zeng, Chen Chen, Chaowen Zhu, Huahai Shen, Xiaosong Zhou, Xiaochun Han

Summary: The characteristics of magnetron sputtered Cr coatings vary with different temperature, bias voltage, and pressure. Coatings with random orientation, good crystallinity, and small grain size exhibit favorable oxidation behavior, while coatings with strong (200) texture, poor crystallinity, and large grains have many intrinsic defects that are detrimental to the protection property of the Cr coatings.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Automated analysis of grain morphology in TEM images using convolutional neural network with CHAC algorithm

Xinyuan Xu, Zefeng Yu, Wei-Ying Chen, Aiping Chen, Arthur Motta, Xing Wang

Summary: This study presents an automated approach for characterizing grain morphology in TEM images recorded during ion irradiation. By combining a machine learning model and a computer vision algorithm, comparable results to human analysis can be achieved with significantly reduced analysis time. Researchers can train their own models following the procedures described in this study to automate grain morphology analysis of their own TEM images.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Model development for oxidation and degradation behavior of accident tolerant Cr coating on Zr alloy cladding under high temperature steam atmosphere

Shihao Wu, Dong Wang, Yapei Zhang, Koji Okamoto, Marco Pellegrini, Wenxi Tian, Suizheng Qiu, G. H. Su

Summary: The oxidation and degradation mechanisms of Cr coating on Zr alloy cladding under high temperature steam atmosphere are summarized, and a mathematical analysis model is established to predict the changes in coating thickness. The model is applied in the analysis of structure evolution under different conditions.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Numerical and experimental development of cupronickel filler brazed joints for divertor and first wall components in DEMO fusion reactor

V. Diaz-Mena, J. de Prado, M. Roldan, I. Izaguirre, M. Sanchez, M. Rieth, A. Urena

Summary: The brazeability of a cupronickel alloy was evaluated as a filler alloy for high-temperature joining of tungsten to steel. The study investigated the brazing conditions and the impact of the selected filler on the joint quality using numerical software. The results showed different metallurgical interactions and diffusion phenomena between the filler alloy and the base materials at different temperatures. The study emphasized the importance of selecting a suitable filler to mitigate residual stresses in the joints.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Defect-specific strength factors and superposition model for predicting strengthening of ion irradiated Fe18Cr alloy

Pengcheng Zhu, Yajie Zhao, Yan-Ru Lin, Jean Henry, Steven J. Zinkle

Summary: This study investigates the effect of heavy-ion irradiation on radiation hardening in high-purity binary alloy Fe18Cr. Nanoindentation testing and high-quality TEM imaging were conducted to extract hardness and microstructure information. The strength factor was accurately calculated based on the detailed TEM characterization of irradiated microstructures, and a refined hardening superposition method was applied to quantify the mechanical properties of ion-irradiated materials.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Synthesis and characterization of sodium-aluminophosphate based glass-ceramics containing NZP phase for HLW immobilization

Bin Wu, Haixia Ning, Hanzhen Zhu, Jianjun Chen, Kang Wang, Daiyu Zhang, Fu Wang, Qilong Liao

Summary: This study discusses the effects of ZrO2 and B2O3 on the phase composition and properties of SAP-based glass-ceramics. The results show that ZrO2 addition improves the formation of NZP phase while restricting the crystallization of AlPO4 phases. The correct ratios of ZrO2 and B2O3 allow only the formation of NZP phase within the SAP glass.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

High temperature oxidation of cold spray Cr-coated accident tolerant zirconium-alloy cladding with Nb diffusion barrier layer

Hwasung Yeom, Greg Johnson, Benjamin Maier, Tyler Dabney, Kumar Sridharan

Summary: Cr-Nb bilayer coatings were developed using cold spray deposition to improve the limiting operational temperature of Cr-coated Zr-alloy system. The coatings exhibited outstanding oxidation resistance at high temperatures and formed continuous intermetallic compound layers at the interfaces.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Irradiation creep measurement and microstructural analysis of chromium nitride-coated zirconium alloy using pressurized tubes

Padhraic L. Mulligan, Andrew T. Nelson, Chad M. Parish, Patrick A. Champlin, Xiang Chen, Daniel Morrall, Jason M. Harp

Summary: Environmental barrier coatings are being developed to reduce oxidation and embrittlement in Zr-based materials. Chromium nitride is a candidate for this application, but understanding its impact on irradiation-induced creep and microstructure is critical.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Determination of impurity distribution in IG-11/110 nuclear graphite using TOF-SIMS

Dexuan Yan, Xinlei Cao, Ke Shen

Summary: This study investigated the purification mechanism of polycrystalline graphite by comparing IG-11 graphite with IG-110 nuclear grade graphite. The analysis revealed that metallic impurities in IG-11 were primarily segregated within graphite porosities, while IG-110 demonstrated a significant reduction in impurities. This research contributes to the development of innovative graphite purification techniques for greater purity and stronger oxidation resistance.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Study of multi-pebble oxidation process in high-temperature gas-cooled reactor

Wei Xu, Wei Peng, Lei Shi, Qi Sun

Summary: This paper investigates the oxidation and shape evolution of matrix graphite in high temperature gas-cooled reactors during air-ingress accidents. A reaction kinetics model is established and computational fluid dynamics with a dynamic mesh method is used to simulate the oxidation process. The results show that the geometric shape of graphite changes significantly with increasing flow rate, and the graphite pebbles tend to form a structure with a narrow front and wide tail.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Synthesis and characterization of super occluded LiCl-KCl in zeolite-4A as a chloride salt waste form intermediate

Allison Harward, Casey Elliott, Michael Shaltry, Krista Carlson, Tae-Sic Yoo, Guy Fredrickson, Michael Patterson, Michael F. Simpson

Summary: This paper investigates the hygroscopic properties of eutectic LiCl-KCl absorbed into zeolite-4A. The study finds that water absorption and corrosion worsen with increasing salt loading. It also suggests that the salt can be stored in a non-inert atmosphere for a certain period of time.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Hermeticity of SiC/SiC composite and monolithic SiC tubes irradiated under radial high-heat flux

Takaaki Koyanagi, Xunxiang Hu, Christian M. Petrie, Gyanender Singh, Caen Ang, Christian P. Deck, Weon-Ju Kim, Daejong Kim, James Braun, Yutai Katoh

Summary: This study provides critical experimental data on the effects of irradiation on the hermeticity of SiC composite cladding, finding that irradiation can cause a decrease in hermeticity and cracking, and coating the outer surface can mitigate the cracking issue.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Theoretical estimation of multiple hydrogen isotope content in metal layers slowly co-deposited from plasmas

S. Krat, A. Prishvitsyn, Yu. Gasparyan

Summary: This study proposes a probabilistic and diffusion-based model to describe the co-deposition of multiple hydrogen isotopes with slowly grown metal layers. The model calculates the relative concentrations of different hydrogen isotopes in the co-deposited metal layers. It is found that if hydrogen isotopes have different detrapping energies, only the isotope with the highest detrapping energy shows a monotonic decrease in concentration with deposition temperature. Furthermore, the study evaluates the uncertainty of tritium concentration in the co-deposited layer based on the uncertainty in detrapping energy of tritium and deuterium, predicting a >10% tritium concentration uncertainty for a 0.01 eV difference.

JOURNAL OF NUCLEAR MATERIALS (2024)

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Article Materials Science, Multidisciplinary

Computational study of thermophysical properties of cerium doped UO2: Effect of oxidation states

Tijo Vazhappilly, Arup Kumar Pathak

Summary: This study investigates the effect of Ce atom substitution in UO2 on its thermophysical properties using density functional theory. The results show that the Ce substitution levels and the oxidation state of Ce/U atoms strongly influence the band structure and specific heat capacity of the UO2 lattice. These findings provide important insights into the fuel properties of UO2 under reactor conditions.

JOURNAL OF NUCLEAR MATERIALS (2024)

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