ࡱ> fhe+ Hbjbj *LܪDhܪDh! 8T&,UD*RLCCCCCCC$G5JC9F"F"F"C4DB'B'B'F"@BpB'F"CB'B'D;? lT$T>*,B%D0UD~>JB%JT?@?J?LV ^B' L!FCC%HUDF"F"F"F"JX L: CV Dr. Michael Joseph Loughlin B.Sc., Ph.D., FInstP A uniquely qualified nuclear physicist with over thirty-five years experience in fusion neutronics, nuclear integration and fusion on the worlds largest fusion experiments. Technical skills/proficiencies and employment experience A uniquely qualified nuclear physicist with over thirty-five years experience on a variety of nuclear fusion devices (JET, TFTR, MAST, ITER) including the worlds largest fusion machines and the only person to have been actively involved in the preparation and operation for all major deuterium-tritium nuclear fusion experiments to date. Employed at ITER as Co-ordinator of Nuclear Shielding and Analysis until March 2022. This is an extremely varied task since it covered shielding analysis for nuclear buildings at one end of the scale and nuclear heating in small tokamak components at the other and involved in radiation safety analysis including demonstration of conformity with safety requirements and ALARA. To successfully handle the high workload using finite resources has required the co-ordination of all the ITER Partners (the domestic agencies) and build an integrated team of international experts. In the field of nuclear data, a sensitivity to international issues has been needed. He encouraged the exploitation and development of computer tools to address the challenges of performing very precise and complex radiation transport simulations, e.g., inputting vast amounts of data for models, and data visualization. He was awarded a prize for the development of a novel means of plotting radiation maps. He also advised the IAEA on the nuclear data needs for fusion research. He was also responsible for the design, development, and management of experiments to verify the radiation transport methodologies and cross-sections. This included experiments to benchmark nuclear heating of super conducting magnets and an examination of the effects of the activation of water by high energy (> 10MeV) neutrons. This was an extension of some of the work he had performed at JET to develop irradiation stations, calibrate and operate neutron diagnostics using Monte-Carlo simulations and then to verify the calibration using multiple measurement techniques. He was in the post as coordinator of nuclear analysis and shielding from the very earliest days of ITER when many aspects of the design of the facility had to be finalised. The role of nuclear analysis and shielding has been central to many aspects of these activities. ITER is a very complex device. This has meant that very precise and reliable radiation transport calculations were needed. To accomplish this, he recruited a team of five (from two initially) and set up several collaborations with institutes from all ITER partners (Europe, Russia, India, Japan, Korea, China, and USA). This was done by organising annual ITER Neutronics Meetings, developing ITER references models, issuing Instructions on Nuclear Analysis and other quality documents and issuing and managing contracts (the annual budget was up to 1.5 million). He has also fostered the growth of neutronics teams in Spain, China, and India. This has included proposing and supervising internships for young scientists working at ITER. Approximately 80 delegates would attend the annual ITER neutronics meetings. These were occasions to foster team spirit, to lead the international neutronics community in directions beneficial to the ITER Project and encourage innovation in code development. Previously, he worked in the Fusion Technology Group in the Theory and Modelling Department of UKAEA as Neutronics Analysis Manager. His responsibilities included the management of radiation transport analysis for the licensing, design, and safe operation of components in fusion systems. Much of the analysis was for ITER systems but has also included JET, MAST and IFMIF. He managed much of this work which is carried out by a team of up to six people. He has the necessary expertise to understand the construction and the nuclear engineering issues which are critical for large nuclear facilities. He was involved in the specification and review of tenders for large industrial contracts applied to the decommissioning studies of JET and a member of the UK Shielding Forum. Previously, he was involved in the development, commissioning, calibration and operation of neutron diagnostics for JET and MAST. This included extensive neutronics modelling which became the basis of decommissioning studies at JET. He has a thorough knowledge of many diagnostic techniques including their principles of operation, their application and their limitations as employed during sessions as physicist in charge during JET experimental programmes. His Ph.D. concentrated on the development of a neutron spectrometer for operation during JETs deuterium plasma operation phase. They were exploited to determine the ion temperature, the deuterium density, the fractional thermonuclear yield during beam-heated discharges and was the first to demonstrate the implications on neutron diagnostics of the use of beryllium as a first wall material. Major Publications Neutron Diagnostics for Fusion Reactors. M.J.Loughlin Ph.D. Thesis Birmingham University (1988) Overview of results from the JET Tokamak using a beryllium first wall. M.Keilhacker and the JET Team Phys. Fluids B 2 (1990) 1291 Fusion Energy Production from a Deuterium Tritium Plasma in the JET Tokamak The JET Team Nuclear Fusion 32 (1992) 187 Neutron Yields from the First Tritium Experiment at JET M.J.Loughlin, B.Balet, E.W.Clipsham and M.Rapisarda Presented to 34th Annual Meeting of the American Physical Society Division of Plasma Physics. Seattle, Washington, USA 16th-20th November 1992 Fusion Power Production from TFTR Plasmas Fuelled with Deuterium and Tritium. J.Strachan et al. Physical Review Letters 72 (1994) 3526 Confinement and Heating of a Deuterium-Tritium Plasma R.Hawryluk et al. Physical Review Letters 72 (1994) 3530 High Fusion performance from deuterium-tritium plasmas in JET M.Keilhaker et al. Nuclear Fusion 39 (1999) 209 Overview of JET Results J.Pamela et al. Nuclear Fusion 43 (2003) 1540-1554 Recent Developments in Neutronics M.J.Loughlin, R.Pampin, G.Lloyd, A.Davis and M.H.OBrien Presented at the 8th International Symposium on Fusion Nuclear Technology, Heidelberg, October 2007 State-of-the-art 3-D radiation transport methods for fusion energy systems P.P.H. Wilson, R. Feder, U. Fischer, M. Loughlin, L. Petrizzi, Y. Wu, M. Youssef Fusion Engineering and Design (2008) Presented at the 8th International Symposium on Fusion Nuclear Technology, Heidelberg, October 2007 ITER Nuclear Analysis Strategy and Requirements M.J.Loughlin, P.Batistoni, C.Konno, U.Fischer, H.Iida, L.Petrizzi, E. Polunovskiy, M.Sawan, P.Wilson, Y.Wu Presented at the 18th TOFE, San Francisco, USA, September 2008 Fusion Science & Technology 56 (2009) 566-572 The impact of nuclear analysis on ITER design and licensing Michael Loughlin, Eduard Polunovskiy, Neill Taylor Fusion Engineering and Design 87 (2012) 646651 Presented at 10th International Symposium on Fusion Nuclear Technology (ISFNT-10), Portland Oregon, Sept 2011 Status and Verification Strategy for ITER neutronics Michael Loughlin, MaurizioAngelone, Paola Batistoni, LucianoBertalot, Jonas Eskhult, ChikaraKonno, RaulPampin, Alexei Polevoi, Eduard Polunovskiy 11th ISFNT, Barcelona, 2013, Fusion Engineering and Design 89 (9-10), 1865-1869  HYPERLINK "javascript:void(0)" Overview over DEMO design integration challenges and their impact on component design concepts C Bachmann, S Ciattaglia, F Cismondi, T Eade, G Federici, U Fischer, T Franke, C Gliss, F Hernandez, J Keep, M Loughlin, F Maviglia, F Moro, J Morris, P Pereslavtsev, N Taylor, Z Vizvary, R Wenninger Fusion Engineering and Design 136, 87-95  HYPERLINK "https://scholar.google.com/scholar?oi=bibs&cluster=1401568964198855639&btnI=1&hl=en" Overview of the JET preparation for deuteriumtritium operation with the ITER like-wall E Joffrin, S Abduallev, M Abhangi, P Abreu, V Afanasev et al. Nuclear Fusion, 59 (11)  HYPERLINK "javascript:void(0)" Improved radiation shielding analysis considering vector calculus R Juarez, MJ Loughlin, AJ L ,456gmrs  ̻|xtfXH@<hZh?yhHv5h?yh?y5B*\aJphhHvB*hnH phtH h}B*hnH phtH hWhuhhxcDh`*h}!h?y5B*CJhnH phtH !hxcD5B*CJhnH phtH !h{f5B*CJhnH phtH !hHv5B*CJhnH phtH  h?yhHvB*hnH phtH !hHv5B*CJ(hnH phtH !hjJ5B*CJ(hnH phtH 56 s  #()<$a$gd9 $x1$a$gdk $xa$gd`* $xa$gd $xa$gdK $xa$gdk1$$a$gd$a$$a$ P V [ \ m p r   . O W r s t    R ` k r w x {  ; < = G M V e i r z {   r LhFh$h h`*h`*h0FThKhkrhdhQghbhZhYh OhiuhWhxcDh`*hkGLNOrr   -@Ar}9BrV]qrsur0246<KYrNQjkrhXzhbhWhhOh$hFh`*hZW=?Aeqrz "#%&)rUrFGJRYr|}23gr &'hv3hsh)h"hHvhh$h Y<hNh0FThDzh`*h.hZh jhiuhbhkhXzhNOIE'()/<=>gt!"n{Sc  S e !´|h|J5B*hnH phtH +hhHv5B*hmHnH phsHtH h"hHv5B*hnH phtH hHvB*hnH phtH  hNnwhNnwB*hnH phtH !hHv5B*CJhnH phtH 'hNnwhNnw5B*CJhnH phtH hbhHv/<=>gt!"n{Sc  S e  & F$ & Fa$$a$$a$gd9e !$!H!I!k!!" "T""".#/#$a$gdQs 7$8$H$gdQs $ & Fa$gdQs$a$gdi $da$gdi $ & Fa$gdi $a$gd|J $ & Fa$gdZs$ & Fa$$a$!$!3!5!6!;!hgkh 8<B*CJphh 8<B*CJphhS1h15B*CJphhS1h1B*CJphhS1hS1aJ+hS1hS15B*OJQJhnH phtH hI}B*CJphh1 5B*CJphhh1 B*CJphh1 B*CJph h1 aJhh1 aJ#hh1 5B*hnH phtH hNnwB*CJphhQsB*CJphhi hQsB*CJph/#_## $7$8$t$$$E%F%{%&b&c&&'''gdaO$a$gdaO $ & Fa$gdaOgd&gd8_ $ & Fa$gd8_$a$gd 8<$a$gdS1 $ & Fa$gdS1$a$gd1  7$8$H$gd1  $ & Fa$gd1 E%F%{%&&&&&,&-&.&`&b&c&d&&&&&& '','4'5'''˻ttteYYeYeJhaOhNnwB*CJaJphhaOB*CJaJphhaOhaOB*CJaJph+haOhaO5B*OJQJhnH phtH 4jhaOhaO5B*OJQJUhnH phtH  h8_CJh3h&CJ h3h& h&CJh8_h&CJH*h8_h&CJh8_ h8_h8_+h8_h8_5B*OJQJhnH phtH h 8<B*CJph'''''(9(:(((((((((( )))O)P)Q)l)FFͷͷͷt^t^^t^KIKU%hYhNnwB*CJaJmH phsH +hYhNnw5B*OJQJhnH phtH 4jhYhNnw5B*OJQJUhnH phtH hNnwB*CJaJphhJ> Subtitle $@&a$5CJ:>2: Title $@&a$ 5;CJPRP Protective Marking$a$ 5;CJN/bNLRQA$a$#CJOJQJ_HmHnHsH tH uR/R UKAEALogo#CJ,OJQJ_HmHnHsH tH u66 Wizard NameCJ<>> Wizard Title 5;CJHP@H Body Text 2$a$5B*htH uBOB Default Text1$ htH uDD H1$dd@&5CJ0KH$htH u@@ H2$dd@&5CJ$htH uBB EN IEAE Title$a$ 5CJtH 6U 6 Y<0 Hyperlink >*B*phR/R bMichael LoughlinCJOJQJ^JaJph^/^ Default !7$8$H$)B*CJPJ_HaJmHnHphsHtHj"j 3L List Paragraph"d^m$CJOJPJQJ^JaJtH FV 1F 0FollowedHyperlink >*B*phOr /A 0text,/Q, 0 author-ref</a< NnwHeading 2 Char5CJ*W q* ?y`Strong5\PK![Content_Types].xmlN0EH-J@%ǎǢ|ș$زULTB l,3;rØJB+$G]7O٭Vj\{cp/IDg6wZ0s=Dĵw %;r,qlEآyDQ"Q,=c8B,!gxMD&铁M./SAe^QשF½|SˌDإbj|E7C<bʼNpr8fnߧFrI.{1fVԅ$21(t}kJV1/ ÚQL×07#]fVIhcMZ6/Hߏ bW`Gv Ts'BCt!LQ#JxݴyJ] C:= ċ(tRQ;^e1/-/A_Y)^6(p[_&N}njzb\->;nVb*.7p]M|MMM# ud9c47=iV7̪~㦓ødfÕ 5j z'^9J{rJЃ3Ax| FU9…i3Q/B)LʾRPx)04N O'> agYeHj*kblC=hPW!alfpX OAXl:XVZbr Zy4Sw3?WӊhPxzSq]y !@L  L'!#E%'FH !%<e /#'H"c9 O 9!!XXXX@ @ 0(  B S  ?H0(   r`%s`%t`%u`%v`%w`%x`%y`%z`%t!y!= *urn:schemas-microsoft-com:office:smarttags PlaceNameB*urn:schemas-microsoft-com:office:smarttagscountry-region8*urn:schemas-microsoft-com:office:smarttagsCity9*urn:schemas-microsoft-com:office:smarttagsplace  .467S]#$57;=Gkwy T_kmxz ~ !!6CLisS]#$Gmw STak!!!!!!!!!333333336)>"{k 8 !!!!!!!!!!!66 9 B   V \ FY(()){{  !!!!!!!!!|rX}J8l~0XhB|'R#Vb?z J5 sH =>5, `8DZp|9\LwVC@8< M.zx_ ^`.^`.^`.^`. ^`OJQJo( ^`OJQJo( ^`OJQJo( ^`OJQJo(hh^h`. hh^h`OJQJo(h^`OJQJo(hHh^`OJ QJ ^J o(hHohp^p`OJ QJ o(hHh@ ^@ `OJQJo(hHh^`OJ QJ ^J o(hHoh^`OJ QJ o(hHh^`OJQJo(hHh^`OJ QJ ^J o(hHohP^P`OJ QJ o(hH^`o(. ^`hH. pL^p`LhH. @ ^@ `hH. ^`hH. L^`LhH. ^`hH. ^`hH. PL^P`LhH.^`o(. ^`hH. pL^p`LhH. @ ^@ `hH. ^`hH. L^`LhH. ^`hH. ^`hH. PL^P`LhH.^`o(. ^`hH. pL^p`LhH. @ ^@ `hH. ^`hH. L^`LhH. ^`hH. ^`hH. PL^P`LhH.77^7`56CJKHOJQJo(77^7`56;CJOJQJo(.77^7`56CJOJQJo(..``^``... ^` .... ^` ..... ^` ...... `^``....... 00^0`........^`.^`.pL^p`L.@ ^@ `.^`.L^`L.^`.^`.PL^P`L.^`o(. ^`hH. pL^p`LhH. @ ^@ `hH. ^`hH. L^`LhH. ^`hH. ^`hH. PL^P`LhH.hh^h`.'~}||9|9|9|9|9|9|9|9|9|9|9|9zx_=>5b?z `8sH wVC M|9|9|9|9|9|9|9|9|9|9                                                        @ @ @ @ @ @=.ENb=ns1 I}Y_N i P / 3 A4@"+ZB\1&Qs (7zr0f!%Pi&.(#-M1v34l569 8<`A< Y<k> @Vz@bAxcD GHNOI|J3LN-fN OVjO R=R0FTXT XTY%af{fQguh j3jkgkgkJmd1qZsuNnw?yDz+~iuaOMKZi(hS1t`*0{*-O}d5~1g]%6vb0Xzh$2/Hv)kr(F7s"8_j "/Q#$BqChWjJI68=G}].!!__Grammarly_42____i__Grammarly_42___14H4sIAAAAAAAEAKtWckksSQxILCpxzi/NK1GyMqwFAAEhoTITAAAATH4sIAAAAAAAEAKtWcslP9kxRslIyNDYytTQ1NzW0tDQzNzSxNDBS0lEKTi0uzszPAykwqwUA1/Qv5CwAAAA=@66664 l !@,@FUnknown G.[x Times New Roman5Symbol3. .[x ArialqTimes New Roman BoldTimes New RomanCMark 1Symbol;UkaeaLogoG=  jMS Mincho-3 fg7..{$ CalibriC.,.{$ Calibri Light?= .Cx Courier New;WingdingsA$BCambria Math"qh"G"G#==!20!! 2q@P?EN2! xxg CURRICULUM VITAEMichael LoughlinLoughlin, MichaelT             Oh+'0   @ L X dpxCURRICULUM VITAEMichael LoughlinNormalLoughlin, Michael3Microsoft Office Word@F#@u7:0@,l@,l ՜.+,D՜.+,@ hp  UKAEA=! CURRICULUM VITAE Title< 8@ _PID_HLINKSAl` javascript:void(0)l`javascript:void(0)s{Thttps://scholar.google.com/scholar?oi=bibs&cluster=1401568964198855639&btnI=1&hl=enl`javascript:void(0)  !"#$%&()*+,-.0123456789:;<=>?@ABCDEFGHIJKLMNOPQRSTVWXYZ[\^_`abcdgRoot Entry FIliData '1Table/KWordDocument*LSummaryInformation(UDocumentSummaryInformation8]CompObjr  F Microsoft Word 97-2003 Document MSWordDocWord.Document.89q