segunda-feira, 16 de novembro de 2015

Neutron Self-Shielding -- CITATIONS

Aos meus Netos
  
[01] Mustafa Karadag: Measurement of thermal neutron cross-section and resonance integral of (n,γ) reactions for 71Ga, 74As, 133Cs,F 139La, 148Nd, 164Dy, 165Ho and 186W isotopes using single monitor 55Mn.  PhD Thesis, Gazi University, Institute of Science and Technology, Ankara, Turkey, October 2003

[02] Béata Király: Bulk media analysis using neutrons. PhD Thesis, Univesity of Debrecen, Hungary, 2003

[03] A.C. Fernandes, I.C. Gonçalves, J.G. Marques, J. Santos, A.J.G. Ramalho, M. Osvay: Mixed-field dosimetry of a fast neutron beam at the Portuguese Research Reactor for the irradiation of electronic circuits – Measurements and calculations. In  Reactor Dosimetry in the 21st Century, Eds. Jan Wagemans et al., World Scientific Publishing Co., 2003, pp. 143-149

[04] D.K. Mohapatra, E. Radha, P. Mohanakrishnan: Theoretical and experimental investigations of reactor parameters in a U-233 fuelled research reactor. Annals of Nuclear Energy 31 (2) (2004) 197-212 

[05] A.C. Fernandes, J.P. Santos, A. Kling, J.G. Marques, I.C. Gonçalves, A. Ferro de Carvalho, L. Santos, J. Cardoso, M. Osvay: Thermoluminescence dosimetry of a thermal neutron field and comparison with Monte Carlo calculations. Radiation Protection Dosimetry 111 (1) (2004) 35-39

[06] K. Sudarshan, R. Tripathi, A.G.C. Nair, R. Acharya, A.V.R. Reddy, A. Goswami: A simple method for correcting the neutron self-shielding effect of matrix and improving the analytical response in prompt gamma-ray neutron activation analysis. Analytica Chimica Acta 549 (1-2) (2005) 205-211

[07] Anderj Trkov: Nuclear reactions and physical models for neutron activation analysis. IAEA Workshop on Nuclear Data for Activation Analysis, Triestre, Italy, 07-18 March 2005

[08] P. Schillebeeckx, K. Volev, M. Moxon: Resonance self-shielding in the epithermal region. IAEA Workshop on Nuclear Data for Activation Analysis, Triestre, Italy, 07-18 March 2005

[09] F. Sporleder: Extensión de la dosimetría del haz clínico de la facilidad de BNCT del reactor RA-6. Instituto Balseiro, Comisión Nacional de Energía Atómica, Universidad Nacional de Cuyo, Argentina, 2005

[10] C. Chilian, M. Kassakov, J. St-Pierre, G. Kennedy: Extending NAA to materials with high concentrations of neutron absorbing samples. Journal of Radioanalytical and Nuclear Chemistry 270 (2) (2006) 417-423 

[11] C. Chilian, J. St-Pierre, G. Kennedy: Dependence of thermal and epithermal neutron self-shielding on sample size and irradiation site. Nuclear Instruments and Methods in Physics Research A 564 (2) (2006) 629-635

[12] R. Gwozdz, F. Grass: Standardization problems in INAA of large organic samples. Czechoslovak Journal of Physics Vol.56 (2006) D229-D240

[13] F.P. Gonçalves Martins: Medida do espectro de energia dos nêutrons no núcleo do reactor IPEN/MB-01. Tese de mestrado, Universidade de São Paulo, Brasil, 2006

[14] Chih-Hao, Chang: The measurement of neutron fluence rate for Tsing-Hua Open-pool Reactor boron neutron capture therapy beam. Dissertation, National Tsing-Hua University, Taiwan, 2006

[15] Z. Idiri, H. Mazrou, S. Beddek, et al.: Monte Carlo optimization of sample dimensions of an Am-241-Be source-based PGNAA setup for water rejects analysis. Nuclear Instruments and Methods Section A 578 (1) (2007) 279-288

[16] U. Bitelli, L.B. Gonçalves: The self-shielding factors in activation detectors used in the IPEN/MB-01 reactor. 2007 International Nuclear Atlantic Conference - INAC 2007, Santos, SP, Brasil, Sept.29 to Oct.5, 2007

[17] Andrej Trkov: Nuclear Reactions and Physical Models for Neutron Activation Analysis. Co-ordinated Research Project Reference Database for Neutron Activation Analysis, IAEA, Vienna, Austria, 7-9 May 2007 

[18] Fernando Ariel Sánchez: Técnicas de medición de flujos de neutrones con detectores de activación. Informe Técnico CNEA-CAB 047/029/07, 2007, Barriloche, Argentina

[19] Van Do Nguyen, Duc Khue Pham et al.: Measurement of thermal neutron cross-sections and resonance integrals for 179Hf(n,γ)180mHf and 180Hf(n,γ)181Hf reactions at the Pohang neutron facility. Nuclear Instruments and Methods in Physics Research Section B Vol. 266, Issue 1 (2008) 21-29

[20] Nguyen Van Do, Pham Duc Khue et al.: Thermal neutron cross-section and resonance integral of the 186W(n,γ)187W reaction. Nuclear Instruments and Methods in Physics Research Section B Volume 266, Issue 6 (2008) 863-871

[21] C. Vockenhuber, M. Bichler et al.: Measurement of the thermal neutron capture cross section and the resonance integral of radioactive 182Hf. Physical Review C, Volume 77, Issue 4, Article Number 044608 (2008)

[22] A. Talamo, Y. Gohar: Production of medical radioactive isotopes using KIPT electron driven subcritical facility. Applied Radiation and Isotopes Vol. 66, Issue 5 (2008) 577-586

[23] C. Chilian, J. St-Pierre, G. Kennedy:  Complete thermal and epithermal neutron self-shielding corrections for NAA using a spreadsheet. Journal of Radioanalytical and Nuclear Chemistry 278 (3) (2008) 745-749

[24] L.B. Gonçalves: Calibração dos canais nucleares do reactor IPEN/MB-01 obtida a partir da medida da distribuição espacial do fluxo de nêutrons térmicos no núcleo do reactor através da irradiação de folhas de ouros infinitamente diluídas. Dissertação de mestrado, Universidade de São Paulo, Brasil, 2008

[25] Cornelia Chilian: Extending neutron activation analysis to materials with high concentrations of neutron absorbing elements. PhD dissertation, École Polytechnique de Montréal, Université de Montréal, Canadá, 2008

[26] Luca Zanini, Jean-Christophe David, Alexander Yu. Konobeyev, Stefano Panebianco and Nicolas Thiolliere: Neutronic and Nuclear Post-Test Analysis of MEGAPIE. Paul Scherrer Institut (CH), PSI Bericht Nr. 08-04, December 2008

[27] Yuan-Hao Liu, S. Nievaart et al: Coarse-scaling adjustment of fine-group neutron spectra for epithermal neutron beams in BNCT using multiple activation detectors. Nuclear Instruments and Methods in Physics Research Section A Vol.598, Issue 3 (2009) 764-773

[28] K. Abbas, S. Buono et al: Development of an accelerator driven neutron activator for medical radioisotope production. Nuclear Instruments and Methods in Physics Research Section A Vol. 601, Issue 3 (2009) 223-228

[29] Nguyen Van Do, Pham Duc Khue et al.: Thermal neutron cross-section and resonance integral of the 98Mo(n,γ)99Mo reaction. Nuclear Instruments and Methods in Physics Research Section B Vol. 267, Issue 3 (2009) 462-468

[30] Yuan-Hao Liu, Sander Nievaart, Hong-Ming Liu, Ray Moss & Shiang-Huei Jiang: Monte Carlo determined self-shielded groupwise cross-sections for the activation foil stack applied in the epithermal neutron spectrum adjustment. Nuclear Instruments and Methods in Physics Research Section A Vol. 602, Issue 2 (2009) 557-563

[31] Yuan-Hao Liu, Sander Nievaart, Pi-En Tsai, Hong-Ming Liu, Ray Moss & Shiang-Huei Jiang: Neutron spectra measurement and comparison of the HFR and THOR BNCT beams. Applied Radiation and Isotopes 67, Issues 7-8, Suppl. 1 (July 2009) S137-S140

[32] Mohammad Wasim, Mohammad Arif, Jamshed Hussain Zaidi, Yasir Anwar: Development and implementation of k0-INAA standardization at 10 MW Pakistan research reactor-1. Radiochimica Acta Vol.97 Issue 11 (November 2009) 651-655

[33] Hong Fang, Mu Gu, Bo Liu, Xiaolin Liu, Shiming Huang, Chen Ni, Zeren Li and Rongbo Wang: A modified area function in time scale for the transmission data analysis of neutron resonance. Nuclear Instruments and Methods in Physics Research B Vol.267, Issues 23-24 (December 2009) 3663-3669

[34] Yuan-Hao Liu: Neutronic characterization of an epithermal neutron beam in boron neutron capture therapy. Dissertation, National Tsing-Hua University, Taiwan, 2009

[35] Stefano Panebianco, Klara Berg, Jean-Christophe David, et al.: Neutronic characterization of the MEGAPIE target. Annals of Nuclear Energy, Volume 36, Issue 3, April 2009, Pages 350-354

[36] N.J.J. Peters: Monte Carlo neutronic simulations for a new approach to parametric INAA and Mo-99 production feasibility at MURR. PhD Thesis, Univ. of Missouri-Columbia, USA, 2009

[37] Mauro S. Dias, Vanderlei Cardoso, Marina F. Koskinas and Ione M. Yamazaki: Determination of the neutron spectrum shape parameter α in k0 NAA methodology using covariance analysis. Applied Radiation and Isotopes 68 (2010) 592–595 

[38] H.T. Phuong, M.V.Nhon, V.T.T.Trang, E.Ishitsuka: Application of Pade approximation for calculation of epithermal neutron self-shielding factors of some materials dealing with Doppler broadening effects. Applied Radiation and Isotopes 68 (2010) 1177–1179

[39] A. El Abd: Measurements of the thermal neutron cross-sections and resonance integrals for 186W (n,γ) 187W and 98Mo (n,γ) 99Mo reactions. Journal of Radioanalytical and Nuclear Chemistry 284 (2010) 321–326

[40] Feiyue Shi, Jiayi Ma, Jingwu Zhao, Shengkang Liu: Simulation study of the channel on correcting neutron self-shielding effect in bulk coal. Journal of Radioanalytical and Nuclear Chemistry 284 (2010) 327–331

[41] Mu-Tai Liu, Sing-Sheng Huang, Wen-Shan Liu, Da-Ming Yea, Lung-Kwang Pan, Chien-Yi Chen: Distribution of spatial photoneutrons inside a 70 kg water phantom via neutron activation analysis. Applied Radiation and Isotopes  68 (9) (2010) 1816-1821

[42] A.C. Fernandes, J.P. Santos, J.G. Marques, A. Kling, A.R. Ramos, N.P. Barradas: Validation of the Monte Carlo model supporting core conversion of the Portuguese Research Reactor (RPI) for neutron fluence rate determinations. Annals of Nuclear Energy 37 (9) (2010) 

[43] C. Chilian, R. Chambon, G. Kennedy: Neutron self-shielding with k0-NAA irradiations. Nuclear Instruments and Methods in Physics Research Section A 622 (2) (2010) 429-432
 
[44] Yang “Alex” Zhou: Investigation of possible hydrogen shielding effect on epithermal neutron activation analysis – A computation and experimental approach. Dissertation, University of Texas at Austin, USA, 2010

[45] G. Marleau, P. Veyret: Simulating sample irradiation in the Slowpoke reactor using the lattice code Dragon. Technical Meeting on Low-Power Critical Facilities and Small Reactors, Ottawa, Ontario, Canadá, 2010 November 1-2

[46] Stefan Paul Gosuly and Liviu Daraban : Resonance integral and thermal cross-section in measurements on samarium using Am-Be and Pu-Be isotopic neutron sources. Studia UBB, Physica, LV, 2, 2010, pp.41-54 (Authors affiliation: Faculty of Physics, Babeş-Bolyai University, Cluj-Napoca, Romania)

[47] Pham Ngoc Son: Calculation of correction factors for neutron capture cross section measurements.   Joint IAEA-ICTP Workshop on Nuclear Reaction Data for Advanced Reactor Technologies, SMR 2141, 2010

[48] Huynh  Truc Phuong: k0 Methods in Activation Analysis with Low Energy Neutrons. PhD thesis in Physics (Nuclear Physics), National University of Ho Chi Minh City, University of Natural Sciences, Vietnam, 2010

[49] Van Do Nguyen, Duc Khue Pham, Tien Thanh Kim, Guinyun Kim, Manwoo Lee, Kyung Sook Kim, Heung-Sik Kang, Moo-Hyun Cho, In Soo Ko and Won Namkung: Measurement of thermal neutron cross-section and resonance integral for the 165Ho(n,γ)166gHo reaction using electron linac-based neutron source. Nuclear Instruments and Methods in Physics Research B Volume 269, Issue 2 (2011) 159-166 

[50] Robert R. Greenberg, Peter Bode, and Elisabete A. De Nadai Fernandes (with contributions by Richard M. Lindstrom, Elizabeth A. Mackey, Rolf Zeisler and Márcio Arruda Bacchi): Neutron activation analysis: A primary method of measurement (Review). Spectrochimica Acta  Part B: Atomic Spectroscopy, Vol.66, Issue 3-4 (March-April 2011) pp.193-241 (cf. Chapter 2: R.R. Greenberg, R.M. Lindstrom, E.A. Mackey, R. Zeisler: Evaluation of uncertainties for neutron activation analysis measurements using the comparator method of standardization, pp.208-232)

[51] M.S. Dias, V. Cardoso, M.F. Koskinas, I.M. Yamazaki, R. Semmler, M. Moralles, G.S. Zahn, F.A. Genezini, M.O. de Menezes, A.M.G. Figueiredo: Measurements of  k0 and Q0 values for 64Zn(n,γ)65Zn and 68Zn(n,γ)69mZn reactions with covariance analysisApplied Radiation and Isotopes 69 (2011) 960–964

[52] Luiz E.C. Mura: Caracterização dos campos neutrônicos obtidos por meio de armadilhas de nêutrons no interior do núcleo do reactor nuclear IPEN/MB-01. Dissertação de Mestrado em Ciências na Área de Tecnologia Nuclear – Reatores, Universidade de São Paulo, Brasil, 2011 

[53] Daniel A.P. Palma, Alessandro da C. Gonçalves, Aquilino S. Martinez: An alternative analytical formulation for the Voigt function applied to resonant effects in nuclear processes. Nuclear Instruments and Methods in Physics Research Section A 654 (1) (2011) 406-411

[54] Z. Révay , R. M. Lindstrom, E. A. Mackey, T. Belgya: Neutron-Induced Prompt Gamma Activation Analysis (PGAA). In Handbook of Nuclear Chemistry (2011) pp.1619-1672

[55] Gu Mu, Fang Hong, Liu Bo, Huang Shiming, Ni Chen, Liu Xiaolin, LI Ze-ren, Wing Por, Gu Mu, Fang Hong, Liu Bo, Huang Shi-ming, Ni Chen, Liu Xiao-lin , Li Ze-ren, Wang Rong-bo: Study and application of the temperature measurement by neutron resonance spectroscopy. Progress in Physics 31 (2) (2011) (in Chinese)

[56] Vanderlei Cardoso: Estudo das covariâncias envolvidas no método k0 de análise por activação neutrónica. Tese para obtenção do Grau de Doutor em Ciências na Área de Tecnologia Nuclear – Aplicações, IPEN-Universidade de São Paulo, Brasil, 2011

[57] Davi Brigatto Mariano: Implementação do método k0-INAA no laboratório de análise por ativação com nêutrons do IPEN utilizando o programa k0-IAEA; Aplicação à análise de amostras geológicas. Dissertação de mestrado na área de Tecnologia Nuclear – Aplicações, IPEN-Universidade de São Paulo, Brasil, 2011

[58] Thiago Carluccio: Implementação e qualificação de metodologia de cálculos neutrônicos em reatores subcríticos acionados por fonte externa de nêutrons e aplicações. Tese para obtenção do Grau de Doutor em Ciências na Área de Tecnologia Nuclear – Reactores, IPEN-Universidade de São Paulo, Brasil, 2011

[59] D. Sahin, K. Ünlü: Determination of self-shielding factors and gamma attenuation effects for tree ring samples. Journal of Radioanalytical and Nuclear Chemistry 291 (2012) pp.549-553 

[60] F. Farina Arboccò, P. Vermaercke, L. Sneyers, K. Strijckmans: Experimental validation of some thermal neutron self-shielding calculation methods for cylindrical samples in INAA. Journal of Radioanalytical and Nuclear Chemistry 291 (2012) pp.529-534

[61] Cornelia Chilian & Gregory Kennedy: Enhancement of thermal neutron self-shielding in materials surrounded by reflectors. Journal of Radioanalytical and Nuclear Chemistry 293 (2012) pp.179-183

[62] Zsolt Révay & Gregory Kennedy: Application of the k0 method in neutron activation analysis and in prompt gamma activation analysis. Radiochimica Acta 100 (8-9) (2012) pp.687-698

[63] F.A. Ferreira Jr., N.L. Maidana, V.R. Vanin, M.S. Dias, M.F. Koskinas and N. Lopez-Pino. 41K(n, γ)42K thermal and resonance integral cross section measurements. Radiochimica Acta 100 (2012) pp.871-877

[64] Angelo Grossi: Misure di grandezze macroscopiche per la verifica di modelli codici e dati nucleari in reattori di ricerca. ENEA, Italia, RdS/2012/148 (Settembre 2012)

[65] Haykel Raouafi: Étude numérique de l’autoprotection spatiale dans des échantillons fortement absorbants irradiés dans le réacteur Slowpoke. Dissertation de «Maîtrise ès sciences appliquées » (Génie Énergétique), Université de Montréal, Ecole Polytechnique de Montréal, Canadá, Septembre 2012

[66] Beatriz Guimarães Nunes: Determinação experimental de razões espectrais e do espectro de energia dos nêutrons no combustível do reator IPEN/MB-01. Dissertação de mestrado em Ciências na área de Tecnologia Nuclear – Reatores, Universidade de São Paulo, Brasil, 2012

[67] Felisberto A. Ferreira Júnior: Medidas das secções de choque térmicas e integrais de ressonância das reacções 34S(n,γ)35S e 42K(n,γ)43K – Aperfeiçoamento por simulação de Monte Carlo. Dissertação para obtenção do título de Doutor em Ciências, Univ. de S. Paulo, Brasil, 2012

[68] PHM NGC SƠN: XÁC ĐNH CÁC THAM S HIU CHÍNH TRONG PHÉP ĐO TIT DIN BT BC X NƠTRON. B GIÁO DC VÀ ĐÀO TO B KHOA HC VÀ CÔNG NGH, VIN NĂNG LƯỢNG NGUYÊN T VIT NAM, 2012

[69] Dağıstan Şahin: Tracing footprints of environmental events in tree ring chemistry using neutron activation analysis. PhD Thesis in Nuclear Engineering, Department of Mechanical and Nuclear Engineering, The Pennsylvania State University, USA, 2012

[70] F. Farina Arboccò, P. Vermaercke, L. Verheyen & K. Strijckmans: Experimental evaluation of epithermal neutron self-shielding for 96Zr and 98Mo. Journal of Radioanalytical and Nuclear Chemistry 297 (3) (2013) pp.371-375

[71] N.V. Do, P.D. Khue, K.T. Thanh, N.T. Hien, G. Kim, S. Yang, K.S. Kim, S.G. Shin, M.H. Cho, M.W. Lee: Measurement of thermal neutron cross section and resonance integral for the 170Er(n,γ)171Er reaction by using a gold monitor. Nuclear Instruments and Methods in Physics Research B 300 (2013) pp.10-17

[72] Kassia B. Kelly: Implementation of the k0-standardization method at the Penn State Breazeale Reactor. Master of Science Thesis in Nuclear Engineering, The Pennsylvania State University, USA, May 2013

[73] Jean-Christophe Sublet, James Eastwood, Guy Morgan, Arjan Koning and Dimitri Rochman: EASY-II: a system for modelling of n, d, p, γ and α activation and transmutation processes. Joint International Conference on Supercomputing in Nuclear Applications and Monte Carlo 2013 (SNA + MC 2013); La Cité des Sciences et de l’Industrie, Paris, France, October 27-31, 2013

[74] Jean-Christophe C. Sublet, James W. Eastwood, J. Guy Morgan: The FISPACT-II User Manual. Culham Centre for Fusion Energy: CCFE-R(11)11 Issue 4 (May 2013), UK Atomic Energy Authority, Culham Science Centre

[75] Risalatul Latifah , Johan A.E. Noor, Bunawas: TEKNIK AKTIVASI FOIL INDIUM UNTUK MENENTUKAN DISTRIBUSI NEUTRON TERMAL DALAM FANTOM PADAT DI BAWAH IRADIASI LINAC 15MV. J. Tek. Reaktor Nukl., Vol. 15, Nº.2,  Juni 2013, pp.104-111

[76] Risalatul Latifah , Johan A.E. Noor, Bunawas Bunawas: Pengukuran fluks neutron termal paga ruangan treatment Linac IX 15 MV. Jurnal Natural B Vol.2 (2) (Oktober 2013) pp.184-190

[77] J.P. Oliveira Flores e R. Semmler: Caracterização do fluxo de nêutrons epitérmicos do reator IEA-R1 e uso do método de Monte Carlo para determinação de incertezas. Seminário Anual 2013, Instituto de Pesquisas Energéticas e Nucleares, Centro de Reator de Pesquisa, Universidade de S. Paulo, Brasil   

[78] C. Chilian, G. Kennedy: The NAA method at Polytechnique Montreal: an efficient alternative way to use the k0 NAA models. Journal of Radioanalytical and Nuclear Chemistry  Volume 300, Issue 2 (May 2014) pp. 533-538

[79] Nguyen Van Do, Pham Duc Khue, Kim Tien Thanh, Nguyen Thi Hien, Guinyun Kim, Sungchul Yangb, Young-Sik Cho, Tae-Yung Song, Young-Ouk Lee, Sung Gyun Shin, Moo-Hyun Cho, Man Woo Lee: Thermal neutron capture cross section and resonance integral of the 139La(n,γ)140La reaction. Nuclear Instruments and Methods in Physics Research Section B: Vol. 335, 15.Sept.2014, pp. 1–7

[80] Chad B. Durrant: Characterization of Italian tile samples using comparative neutron activation analysis in the Penn State Breazeale Nuclear Reactor. Master of Science Thesis in Nuclear Engineering, Department of Mechanical and Nuclear Engineering, The Pennsylvania State University (USA), 2014

[81] Jean-Christophe C. Sublet, James W. Eastwood, J. Guy Morgan: The FISPACT-II User Manual. Culham Centre for Fusion Energy: CCFE-R(11)11 Issue 6 (June 2014), UK Atomic Energy Authority, Culham Science Centre

[82] J.W. Eastwood and J.G. Morgan: Pathways and Uncertainty Prediction in FISPACT-II.  Joint International Conference on Supercomputing in Nuclear Applications and Monte Carlo, SNA + MC 2013, 02403 (2014) UK Atomic Energy Authority, Culham Science Centre

[83] Vítor Ottoni Garcia Arêdes: Caracterização do núcleo cilíndrico de menor excesso de reatividade do reator IPEN-MB-01, pela medida da distribuição espacial e energética do fluxo de nêutrons. Dissertação de Mestrado em Ciências na Área de Tecnologia Nuclear – Reatores, IPEN, Universidade de São Paulo, Brasil, 2014

[84] João Pedro de Oliveira Flores e Renato Semmler: Caracterização do fluxo de nêutrons epitérmicos do reator IEA-R1 utilizando o método bare triple monitor para o uso em análise por ativação. IPEN Brasil, Livro-resumo do XX Seminário Anual PIBIC, pp. 118-119

[85] Amgad E. Mohamed: Cobalt irradiation in cylindrical nuclear reactor. Kansas State University, Mechanical and Nuclear Engineering Department, USA, June 2014

[86] Nguyen Van Do, Pham Duc Khue, Kim Tien Thanh, Nguyen Thi Hien, Kim Guinyun: Measurement of thermal neutron capture cross section and resonance integral for the 45Sc(n, γ)46Sc reaction with pulsed neutron. Communications in Physics, Vol. 24, No. 3S2 (2014) pp.29-37

[87] J.W. Eastwood, J.G. Morgan and J-Ch. Sublet: Inventory Uncertainty Quantification using TENDL Covariance Data in Fispact-II. Nuclear Data Sheets 123 (2015) pp.84-91

[88] Andrej Trkov, Vladimir Radulović: Nuclear reactions and physical models for neutron activation analysis. Journal of Radioanalytical and Nuclear Chemistry Vol. 304 (2) (2015) pp.763-778

[89] M.A. Koehl, R.S. Rundberg, J.C. Braley: Measured neutron flux parameters in the USGS TRIGA MARK I reactor. Journal of Radioanalytical and Nuclear Chemistry, Vol. 306, Issue 1 (2015) pp. 31-38

[90] C. B. Durrant, A. M. Johnsen, K. Ünlü: Characterization of Italian Tile Samples Using Comparative Neutron Activation Analysis. The Pennsylvania State University, USA, 2015

[91] Diogo Feliciano dos Santos: Caracterização neutrónica de configuração cilíndrica contendo armadilha de nêutrons com água leve (H2O) ou reflector de água pesada (D2O) no interior do núcleo do reator IPEN/MB-01. Dissertação de mestrado em Ciências na área de Tecnologia Nuclear – Reatores, Universidade de São Paulo, Brasil, 2015 

[92] Jyothier Kumar Nimmagadda: Analysis of the integral experimentMeasurement of Actinide Neutronic Transmutation Rates with Accelerator mass spectroscopy (MANTRA)”. PhD dissertation, Department of Nuclear Engineering, Idaho State University, USA, 2015

[93] Jean-Christophe C. Sublet, James W. Eastwood, J. Guy Morgan, Michael Fleming, Mark R. Gilbert: The FISPACT-II User Manual. UKAEA-R(11)11 Issue 7 (Sept.2015) 

[94] Luis Wentzeis: Medición del Espectro Neutrónico en la Columna Térmica del Reactor Nuclear RA-1 Mediante un Método de Deconvolución Directo. Congreso anual de la Asociación Argentina de Tecnología Nuclear, 30.noviembre – 4.diciembre 2015, Buenos Aires, República Argentina

 [95] Lívia F. Barros, Mauro S. Dias, Marina F. Koskinas, Ione M. Yamazaki, Renato Semmler: Determination of k0 for 63Cu(n,γ)64Cu reaction with covariance analysis. 2015 International Nuclear Atlantic Conference - INAC 2015, São Paulo, Brazil, October 4 - 9, 2015. Found here

[96] Lê, Văn Hi: Nghiên cu phn ng ht nhân 108Pd(n,γ)109Pd gây bi notron nhit. Science Master Thesis, Hanoi National University, Vietnam, 2015

[97] James Eastwood, Guy Morgan: FISPACT-II Software Specification Document. CEM/130516/SD/2 Issue 9, September 2015

UPDATING:

[98] E. Vagena, S. Stoulos, M. Manolopoulou: Analysis of improved neutron activation technique using thick foils for application on medical LINAC environment. Nuclear Instruments and Methods in Physics Research Section A, Vol. 806 (2016) pp. 271-278

[99] Eleni Vagena: Study of the ionizing radiation field around accelerators. PhD Thesis, Physics Department, Aristotle University of Thessaloniki, Grecce, 2016

[100] Mustafa Guray Budak, Mustafa Karadag, Haluk Yücel: Determination of effective resonance energy for the 193Ir(n,γ)194Ir reaction by the cadmium ratio method. Nuclear Instruments and Methods in Physics Research Section B: Vol. 373 (2016) pp. 85–90

[101] Yury V. Aleynikov, Yury A. Popov, Irina V. Prozorova (*): Calculated determination of corrections for resonance self-shielding of activation gold/tantalum detectors at irradiation. Bulletin of the Tomsk Poly-technic University – Geo Аssets Engineering, Vol. 327/3 (2016) pp.136–142. Citation found here
(*) Institute of Atomic Energy, National Nuclear Center of Republic of Kazakhstan.

[102] Chen (陈忠): Monte Carlo method using γ measuring radioactivity in environmental samples and the use of new materials, β measuring density application (M.C.方法在用γ测量环境样品放射性活度和用β测量新材料密度中的应用). Tese de Mestrado, Física de Partículas e Física Nuclear, Universidade de Sichuan, China, 2005. Citation found here on april.2016. 

[103] M. Mahdavi et al.: Estimation of organ absorbed dose in a CT scan of the chest area using phantom. 22st Iranian Nuclear Conference 24-25Feb.2016, University of Yazd, Iran, pp.66-71. Citation found here

[104] Michael A. Koehl: Relative fission product yield determination in the USGS Triga Mark I Reactor. PhD Thesis, Colorado School of Mines, USA, 2016, pp.16-32. Citation found here.  

[105] UKAEA-CCFE (Culham): FISPACT-II – Inventory Simulation Platform for Nuclear Observables. http://fispact.com (2016) in Development - Self-shielding.

[106] P. Panikkath, P. Mohanakrishnan: Thermal-neutron cross sections and resonance integrals of 138Ba and 141Pr using Am-Be neutron source. The European Physical Journal A, Vol. 52, Issue 9, Article 276, Sept.2016 

[107] Giancarlo D'Agostino, Marco Di Luzio, Giovanni Mana, Luca Martino, Massimo Oddone, and Carlo Paolo Sasso: Quantification of the Void Volume in Single-Crystal Silicon. Analytical Chemistry, 88 (23) (2016) pp. 11678–11683 

[108M.G. Budak, M. Karadag, H. Yücel: Measurement of thermal neutron and resonance integral cross section for the 193Ir(n,γ)194Ir reaction. Proceedings of the 2nd International Conference on Theoretical and Experimental Studies in Nuclear Applications and Technology, 2016, pp.84-89  
http://tesnat.org/tesnat2016/document/TESNAT2016_Proceedings.pdf

[109] Jean-Christophe C. Sublet, James W. Eastwood, J. Guy Morgan, Michael Fleming, Mark R. Gilbert: The FISPACT-II User Manual. UKAEA-R(11)11 Issue 8 (Dec.2016)

[110] M. Blaauw, D. Ridikas, S. Baytelesov, P. S. Bedregal Salas, Y. Chakrova, Cho Eun-Ha, R. Dahalan, A. H. Fortunato, R. Jacimovic, A. Kling, L. Muñoz, N. M. A. Mohamed, D. Párkányi, T. Singh, and Van Dong Duong: Estimation of 99Mo production rates from natural molybdenum in research reactors. Journal of Radioanalytical and Nuclear Chemistry, Vol. 311, Issue 1 (Januray 2017) pp.409-418

[111] J.-Ch. Sublet, J. W. Eastwood, J. G. Morgan, M. R. Gilbert, M. Fleming, and W. Arter: FISPACT-II: An Advanced Simulation System for Activation, Transmutation and Material Modelling. Nuclear Data Sheets Vol. 139 (January 2017) pp.77–137

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