Source: http://stem.open.ac.uk/people/njm258
Timestamp: 2019-04-22 10:53:20+00:00

Document:
I am Professor of Molecular Physics in the School of Physical Science, The Open University.
I am a physics graduate of UCL BSc (1983) from which I obtained my PhD (1987) in atomic physics. Subsequently I was a SERC research fellow and a Royal Society University Research Fellow (1990-1998) before becoming a lecturer and then a Reader. I joined The Open University as a Professor in 2002. I was awarded DSc from University of London in 2002 and Professor of University of Innsbruck in 2008. In 2007 I was awarded the Order of the British Empire (OBE) for Services to Science.
• The study of the subsequent physical chemistry that such processes may induce in local media.
• Demonstrated the ability of low energy (<10eV) electrons to induce site selective dissociation within a molecule, thus providing a controllable pathway for chemical reactions.
• Developed one of only three international successful research programmes in the study of direct electron induced damage of DNA samples, providing fundamental data for the study of radiation induced damage at the molecular level, a programme that is leading to the investigation of possible new radiosensitizers for cancer therapy using nanoagents.
• Developed an internationally recognized research programme in (laboratory) astrochemistry exploring the mechanisms of molecular formation in ices accreted on dust grains in the Interstellar medium.
• Explored the role of electron chemistry in planetary atmospheres with particular relevance to the ionosphere of Titan.
• Explored the role of low energy electron interactions in plasmas in order to explore new methodologies for the design and production of nanostructures within the semiconductor industry.
• Produced a spectral atlas of photoabsorption data for environmental/atmospheric research from which we derive global warming potentials and ozone depletion potentials. Our data is now routinely used as the standard data by climate modeling community.
Since 2009 I have also been integral to the establishment of large scale atomic and molecular data assembly, curation, validation and dissemination programmes through EU Framework programme and with the IAEA. These programmes aim to provide the roadmap for validation of atomic and molecular data (both spectroscopic and collisional) datasets for exploitation by user communities and aim to define peer review and data curation procedures over the next decade.
Since 2013 I am chair of Europlanet collaboration http://www.europlanet-2020-ri.eu/ which aims to develop European Planetary Science through collaborative projects. This is the largest collaboration in academic research in EU planetary science involving and includes the integration of more than 60 research centres/institutes in developing an integrated research infrastructure of laboratories and on-line tools and data bases. From 2018 this consortium will form the basis of the Europlanet Society open to both individual and institutional membership.
Total research grant income in period 1995 to date is in excess of £15 million employing 23 Postdocs and 34 research students. I have received grants from most of the UK Research councils EPSRC, MRC, NERC and STFC. I have also received extensive funding from the EU Framework programme including four training networks. The LASSIE Initial Training in astrochemistry (2009-13); the Initial Training Network in mass spectrometry PIMMS (2009-16); the Initial Training Network ARGENT applying nanotechnology to radiotherapy (2014-present) and ELENA for next generation nanolithography (2016-20). In addition I am Chair of EUROPLANET the largest European consortium in planetary science (a project funded by H2020 as a Research Infrastructure in 2015 (see above). I am also a member of the database project VAMDC (funded as an e-infrastructure 2009-12 and an international co-ordination project SUP@VAMDC (2012-14). In total these progammes were funded in excess of 30 million Euros. I also held an additional 750,000 Euros of other EU funding for 3 senior visiting research professors. Research income in 2017/8 is expected to be in excess of £3 million.
I have a history of high student satisfaction in both U/G and P/G teaching coupled with a record of innovative teaching.
Teaching at UCL. Whilst at UCL I established the first ‘Environmental Physics’ course (year 2 option) which for first time delivered major interdisciplinary lecture material to Physics UGs. Arising from this was a text book entitled Introduction to Environmental Physics’ which has continued to see well and requests for second editions have been made. I was lecturer on Third year U/G later 4th year MSci course on Atomic and Molecular Physics. In 1999 in collaboration with the HEDU I piloted a scheme for interactive teaching as part of my Environmental Physics course. All students were issued with hand sets allowing then to interact directly with the lecturer during the course of the lecture. This system allows the lecturer to assess understanding throughout the lecture and encourage more active student participation. This was the first time that such an interactive teaching mechanism had been adopted in a Physics Department in the UK.
In addition to general lecturing duties I was organiser of the annual Departmental Staff-student weekend at Cumberland Lodge (1990-2002) a weekend of lectures and group actvities aimed at developing a feeling of student community and developing mechansims for Staff-student consultation.
In 1998 I assumed the duties of Departmental Careers officer. I have devised a completely new range of Career activities including lectures from Career staff and external experts. A new careers information system for Departmental students was developed and basic skills needed for Careers (e.g. CV preparation, mock intervoews) included as part of the departmental teaching programme.
From 2001 to 2002 I was Departmental schools liason officer arranging work placements in the department and developing the department’s profile and recruitment in local schools.
At the Open University Open University teaching is distinctive being largely by distance and organised through course teams. I was part of course team that redesigned our delivery of level three (final year) material in course SM358 ‘The Quantum World’ with particular emphasis on Tunneling and scattering and SM359 on ‘Electricity and Magnetism’. Both of these originally included week long summer schools for practicals which I chaired for some years. I also worked on S207 our major introductory course to UG physics being exam Board Chair. I chaired SXP390 final project course for OU students this requires students to choose a topic from a list of Physics, Astronomy and Space Science options and write a dissertation using literature and published work to provide a critique and review of the topical area. Currently I am Course Chair for SM358 'The Quantum World' and module team for SXP288 The Open University Practical physics and astrnomy, delivered on-line through direct links to apparatus allowingstudents to do real-time experiments.
Conference Organsation On average I organize 5-6 international meetings and workshops per year (as part of my EU projects so I only list the major ones here.
Co-Chair H2020 ITN Elena (2016-20) 3.88 million Euros.
Chemistry is fundamental to nanotechnology (NT), as chemistry can prepare specifically tailored molecules to serve, in a bottom-up approach, as the building blocks for the fabrication of functional and structured nano-materials. Nanotechnology, in turn, has been hailed as the technology of the 21st century with applications from electronics to biotechnology and medicine. The next decade will thus be characterized by an increasing industrial demand for the creation of novel nanostructures whose individual physical and chemical properties can be tuned to specific applications.To meet this demand, the chemistry and the physics behind new and emerging nanoscale fabrication methods must be well understood and this understanding must be systematically deployed to advance these methods into commercially viable fabrication technologies. Simultaneously the nanotechnology industry must have access to well trained individuals with both the technical skills and broad understanding of the fundamental physical and chemical parameters governing the performance of next generation processing techniques and, last but not least, the skills and drive needed for further innovation and entrepreneurship in the nano-technology field. This is essential to assure that Europe remains a significant player in this, economically and technologically very important industry. Thus the main objectives of the proposed ELENA ETN are to: i) increase our understanding of the fundamental processes underpinning two innovative, next generation nano-scopic writing techniques; Focused Electron, Beam Induced Processing (FEBIP) and Extreme Ultra Violet Lithography EUVL. ii) translate this knowledge to the design and development of molecular properties of FEBIP precursor molecules and EUVL resists, such that these methods may be further optimized in performance, and eventually be made commercially competitive. iii) train a new generation of scientists with both a fundamental understanding of the physics and chemistry behind these processes, the mind set for innovation and entrepreneurship and a skill set, generally tailored to the needs of the nanotechnology industry.
New University of Lisbon have a doctoral training program called RaBBiT, whereby the student does research towards their PhD in a host lab (in this case at the OU). The student will be a visitor to the OU for 2 years. The Sir John Mason Academic Trust will meet the cost of the project specific consumables and expenses.
The PEARL project aims at advancing the technologies for manufacturing of high quality Periodically Bent Crystals (PBCr). The PBCr developed in the course of this project will be utilised for the construction of novel light sources of high-energy (hν≥102 keV up to GeV range) monochromatic electromagnetic radiation by means of a Crystalline Undulator (CU) . The technological and experimental part of this project will be accompanied by the complimentary advanced theoretical research utilising modern theoretical, computational and modelling methods accomplished with high performance computing techniques. A broad interdisciplinary, international collaboration has been created in the frame of FP7 PIRSES-CUTE project, which was focused on initial experimental tests of the CU idea and the related theory, for review see . This project has been successfully completed in March 2015 and left the matter experimentally validated to a degree that is tantalising, requiring further experimentation. In particular CUTE elucidated the demand on manufacturing PBCrs of an exceptional lattice quality, their experimental characterisation and exposure against the high quality beams of ultra-relativistic electrons and positrons for the observation of the strong coherent effects in the photon emission process. PEARL will focus on solving the whole complex of the important technological, experimental and theoretical problems aiming to achieve the major breakthrough in this important research area. The PEARL international collaboration is extended with respect to CUTE and involves the new partners with the essential, necessary, complementary expertise and experimental facilities. The PEARL research programme is highly collaborative and requiring numerous exchange visits between the involved laboratories, joint workshops and conferences. Therefore, RISE type of project is the most suitable for strengthening of this very essential, ongoing, international collaborative research.
This H2020 Twinning project ‘Achievement of Excellence in Electron Processes for Future Technologies’ (ELEvaTE) is aimed at advancing the excellence of the Electron and Plasma Physics Laboratory (EPPL) in the Faculty of Mathematics Physics and Informatics, Comenius University in Bratislava such that it becomes a centre of international excellence and an exemplar for other Slovakian HEI while furthering the Strategy for Smart Specialization of the Slovak Republic. The goal of the ELEvaTE is to provide the EPPL opportunity to learn from partners to achieve ambition of creating a centre of excellence. ELEvaTE will twin EPPL with the Molecular Physics Group at the Open University (OU) in United Kingdom and Nano-Bio-Group at the Institute for Ion Physics and Applied Physics at the University of Innsbruck (UI). The OU is exceptional in results dissemination and the UI combines research with enterprise (e.g. ‘spin out’ company Ionicon, world's leading producer of PTRMS), both are exemplars of ‘widening participation and gender sensitive research’ and are strong in preparing IPR.
The Europlanet 2020 Research Infrastructure (EPN2020-RI) will address key scientific and technological challenges facing modern planetary science by providing open access to state-of-the-art research data, models and facilities across the European Research Area. Its Transnational Access activities will provide access to realistic analogue field sites for Mars, Europa and Titan, and world-leading laboratory facilities that simulate conditions found on planetary bodies. Its two Virtual Access activities will make available the diverse datasets and visualisation tools needed for comparing and understanding planetary environments in the Solar System and beyond. By providing the underpinning facilities that European planetary scientists need to conduct their research, EPN2020-RI will create cooperation and effective synergies between its different components: space exploration, ground-based observations, laboratory and field experiments, numerical modelling, and technology. EPN2020-RI builds on the foundations of the previous FP6 and FP7 Europlanet programmes that established the ‘Europlanet brand’ and organised structures that will be used in the Networking Activities of EPN2020-RI to coordinate the European planetary science community’s research. Furthermore, it will disseminate its results to a wide range of stakeholders including ERA industry, policy makers and, crucially,both the wider public and the next generation of researchers and opinion formers, now in education. As an Advanced Infrastructure we place particular emphasis on widening the participation of previously under-represented research communities and stakeholders. We aim to include new countries and Inclusiveness Member States, via workshops, team meetings, and personnel exchanges, to improve the scientific and innovation impact of the infrastructure. EPN2020-RI will therefore build a truly pan-European community that shares common goals, facilities, personnel, data and IP across national boundaries.
Laboratory data is key to interpreting and modelling astronomical observations. Yet this data, even when available, is often hard to access for working astronomers. Tradiationally, laboratory data required by astrophysicists is dispersed in a collection of specialized databases, with varying degrees of visibility, accessibility and functionality, the published literature, websites and private data collections. This makes accessing critical data, or even determining if it exists, difficult even for the specialist and daunting or impossible for the occasional user, which includes the most observational astronomers. VAMDC is a transnational attempt to address this issue in the atomic and molecular area by linking all the key databases through a single portal. This interoperability has been achieved by developing a specialist data language XSAMS (XML Schema for Atoms, Molecules and Solids). XSAMS was originally proposed by, and continues to be curated by, the International Atomic Energy Agency (IAEA). VAMDC was originally built about linking 16 databases but has proved highly attractive to data providers with 29 (and rising) databases now included. The present proposal aims to build on this success in three areas of importance to the UK: (a) Further development of UK astronomical databases UDfA, Chianta and ExoMol; (b) Increased functionality of VAMDC for astronomical users; (c) Awareness raising of the potential of VAMDC within the UK astronomy community.
ARGENT Extension Advanced Radiotherapy, Generated By Exploiting Nanoprocesses And Technologies.
Fulvio, Daniele; Baratta, G. A.; Sivaraman, B.; Mason, N. J.; da Silveira, E. F.; de Barros, A. L. F.; Pandoli, O.; Strazzulla, G. and Palumbo, M. E.
Mazankova, V.; Torokova, L.; Moravsky, L.; Matejcik, S.; Trunec, D.; Navratil, Z. and Mason, N. J.
Dawes, Anita; Pascual, Natalia; Mason, Nigel J.; Gärtner, Sabrina; Hoffmann, Søren V. and Jones, Nykola C.
de Vera, Pablo; Surdutovich, Eugene; Mason, Nigel J. and Solov’yov, Andrey V.
Krishnakumar, E.; Prabhudesa, Vaibhav S. and Mason, Nigel J.
Dawes, Anita; Pascual, Natalia; Hoffmann, Søren V.; Jones, Nykola C. and Mason, Nigel J.
Pandey, R.; Ryszka, M.; da Fonseca Cunha, T.; Lalande, M.; Dampc, M.; Limão-Vieira, P.; Mason, N.J.; Poully, J.C. and Eden, S.
Grellet, Sophie; Tzelepi, Konstantina; Roskamp, Meike; Williams, Phil; Sharif, Aquila; Slade-Carter, Richard; Goldie, Peter; Whilde, Nicky; Smialek, Malgorzata A.; Mason, Nigel J. and Golding, Jon P.
Pavithraa, S.; Sahu, D.; Seth, G.; Lo, J.-I.; Raja Sekhar, B. N.; Cheng, B.-M.; Das, A.; Mason, N. J. and Sivaraman, B.
Gope, K.; Prabhudesai, V. S.; Mason, N. J. and Krishnakumar, E.
Pavithraa, S.; Methikkalam, R. R. J.; Gorai, P.; Lo, J -I.; Das, A.; Raja Sekhar, B. N.; Pradeep, T.; Cheng, B -M.; Mason, N. J. and Sivaraman, B.
Haume, Kaspar; Rosa, Soraia; Grellet, Sophie; Śmiałek, Małgorzata; Butterworth, Karl T.; Solov'yov, Andrey V.; Prise, Kevin M.; Golding, Jon and Mason, Nigel J.
Haume, Kaspar; Mason, Nigel J. and Solov’yov, Andrey V.
de Vera Gomis, Pablo; Mason, Nigel J.; Currell, Fred J. and Solov’yov, Andrey V.
Ryszka, M.; Pandey, R.; Rizk, C.; Tabet, J.; Barc, B.; Dampc, M.; Mason, N.J. and Eden, S.
Dawes, Anita; Mason, Nigel and Fraser, Helen J.
Mazankova, V.; Torokova, L.; Krcma, F.; Mason, N. J. and Matejcik, S.
Sivaraman, B.; Pavithraa, S.; Lo, J.-I.; Raja Sekhar, B. N.; Hill, H.; Cheng, B.-M. and Mason, N. J.
Dubernet, M. L.; Antony, B. K.; Ba, Y. A.; Babikov, Yu L.; Bartschat, K.; Boudon, V.; Braams, B. J.; Chung, H-K.; Daniel, F.; Delahaye, F.; Zanna, G. Del; Urquijo, J. de; Dimitrijević, M. S.; Domaracka, A.; Doronin, M.; Drouin, B. J.; Endres, C. P.; Fazliev, A. Z.; Gagarin, S. V.; Gordon, I. E.; Gratier, P.; Heiter, U.; Hill, C.; Jevremović, D.; Joblin, C.; Kasprzak, A.; Krishnakumar, E.; Leto, G.; Loboda, P. A.; Louge, T.; Maclot, S.; Marinković, B. P.; Markwick, A.; Marquart, T.; Mason, H. E.; Mason, N. J.; Mendoza, C.; Mihajlov, A. A.; Millar, T. J.; Moreau, N.; Mulas, G.; Pakhomov, Yu; Palmeri, P.; Pancheshnyi, S.; Perevalov, V. I.; Piskunov, N.; Postler, J.; Quinet, P.; Quintas-Sánchez, E.; Ralchenko, Yu; Rhee, Y-J.; Rixon, G.; Rothman, L. S.; Roueff, E.; Ryabchikova, T.; Sahal-Bréchot, S.; Scheier, P.; Schlemmer, S.; Schmitt, B.; Stempels, E.; Tashkun, S.; Tennyson, J.; Tyuterev, Vl G.; Vujčić, V.; Wakelam, V.; Walton, N. A.; Zatsarinny, O.; Zeippen, C. J. and Zwölf, C. M.
da Silva, F. Ferreira; Duflot, D.; Hoffmann, S. V.; Jones, N. C.; Rodrigues, F. N.; Ferreira-Rodrigues, A. M.; de Souza, G. G. B.; Mason, N.J.; Eden, S. and Limão-Vieira, P.
Limão-Vieira, P.; Ferreira da Silva, F.; Almeida, D.; Hoshino, M.; Tanaka, H.; Mogi, D.; Tanioka, T.; Mason, N. J.; Hoffmann, S. V.; Hubin-Franskin, M.-J. and Delwiche, J.
Śmiałek, M. A.; Łabuda, M.; Guthmuller, J.; Hubin-Franskin, M.-J.; Delwiche, J.; Duflot, D.; Mason, N. J.; Hoffmann, S. V.; Jones, N. C. and Limão-Vieira, P.
Barc, B.; Ryszka, M.; Poully, J.-C.; Jabbour Al Maalouf, E.; el Otell, Z.; Tabet, J.; Parajuli, R.; van der Burgt, P.J.M.; Limão-Vieira, P.; Cahillane, P.; Dampc, M.; Mason, N. J. and Eden, S.
Smialek, Malgorzata A.; Ptasińska, Sylwia; Gow, Jason; DaPieve, Chiara and Mason, Nigel J.
Szymańska, Ewelina; Čadež, Iztok; Krishnakumar, E. and Mason, Nigel J.
Bergantini, A.; Pilling, S.; Nair, B. G.; Mason, N. J. and Fraser, H. J.
Sivaraman, B.; Nair, B. G; Raja Sekhar, B. N.; Jones, N. C.; Hoffmann, S. V. and Mason, N. J.
Sivaraman, B.; Nair, B. G.; Raja Sekhar, B.N.; Lo, J.-I.; Sridharan, R.; Cheng, B.-M. and Mason, N. J.
Barc, B.; Ryszka, M.; Spurrell, J.; Dampc, M.; Limão-Vieira, P.; Parajuli, R.; Mason, N. and Eden, S.
Sivaraman, B.; Nair, B. G.; Lo, J. -I.; Kundu, S.; Davis, D.; Prabhudesai, V.; Raja Sekhar, B. N.; Mason, N. J.; Cheng, B. -M. and Krishnakumar, E.
Śmiałek, M. A.; Szymańska, E.; MacDonald, M.; Zuin, L. and Mason, N.
Sivaraman, B.; Sekhar, B. N. Raja; Nair, B. G.; Hatode, V. and Mason, N. J.
Szymańska-Skolimowska, Ewelina; Prabhudesai, Vaibhav S.; Mason, Nigel J. and Krishnakumar, E.
Sivaraman, B.; Raja Sekhar, B. N.; Jones, N. C.; Hoffmann, S. V. and Mason, N. J.
Lv, X. Y.; de Barros, A. L. F.; Boduch, P.; Bordalo, V.; da Silveira, E. F.; Domaracka, A.; Fulvio, D.; Hunniford, C. A.; Langlinay, T.; Mason, N. J.; McCullough, R. W.; Palumbo, M. E.; Pilling, S.; Rothard, H. and Strazzulla, G.
Sério, S.; Nunes, Y.; Hoffmann, S. V.; Mason, N. J.; Duflot, D. and Limão-Vieira, P.
Śmiałek, M. A.; Hubin-Franskin, M.-J.; Delwiche, J.; Duflot, D.; Mason, N.; Vrønning-Hoffmann, S.; de Souza, G. G. B.; Ferreira Rodrigues, A. M.; Rodrigues, F. N. and Limão-Vieira, P.
Miljkovic, K.; Hillier, J. K.; Mason, N.J. and Zarnecki, J. C.
Miljković, K.; Mason, N. J. and Zarnecki, J. C.
Horvath, G.; Zahoran, M.; Mason, N. J. and Matejcik, S.
Śmiałek, M. A.; Jones, N. C.; Balog, R.; Mason, N. J. and Field, D.
Horvath, G.; Krcma, F.; Polachova, L.; Klohnova, K.; Mason, N. J.; Zahoran, M. and Matejcik, S.
Vinodkumar, M.; Limbachiya, C. G.; Joshipura, K. N. and Mason, N. J.
Krishnakumar, E.; Denifi, S.; Čadež, I.; Markelj, S. and Mason, N. J.
Antunes, R.; Almeida, D.; Martins, G.; Mason, N. J.; Garcia, G.; Maneira, M. J. P.; Nunes, Y. and Limão-Vieira, P.
Horvath, G.; Mason, N. J.; Polachova, L.; Zahoran, M.; Moravsky, L. and Matejcik, S.
Ptasińska, S.; Mason, N. J.; Hunniford, C. A.; McCullough, R. W.; Denifl, A.; Mauracher, A. and Scheier, P.
Nunes, Y.; Martins, G.; Mason, N. J.; Duflot, D.; Hoffmann, S. V.; Delwiche, J.; Hubin-Franskin, M.-J. and Limão-Vieira, P.
Thrower, J. D.; Abdulgalil, A. G. M.; Collings, M. P.; McCoustra, M. R. S.; Burke, D. J.; Brown, W. A.; Dawes, A.; Holtom, P. J.; Kendall, P.; Mason, N. J.; Jamme, F.; Fraser, H. J. and Rutten, F. J. M.
Horvath, G.; Aranda-Gonzalvo, Y.; Mason, N. J.; Zahoran, M. and Matejcik, S.
Horvath, G.; Skalny, J. D.; Orszagh, J.; Vladoiu, R. and Mason, N. J.
Ferreira da Silva, F.; Almeida, D.; Martins, G.; Milosavljevic, A. R.; Marinkovic, B. P.; Hoffmann, S. V.; Mason, N. J.; Nunes, Y.; Garcia, G. and Limão-Vieira, P.
Martins, G.; Ferreira-Rodrigues, A. M.; Rodrigues, F. N.; de Souza, G. G. B.; Mason, N. J.; Eden, S.; Duflot, D.; Flament, J.-P.; Hoffmann, S. V.; Delwiche, J.; Hubin-Franskin, M.-J. and Limão-Vieira, P.
Vicente, A.; Antunes, R.; Almeida, D.; Franco, I. J. A.; Hoffmann, S. V.; Mason, N. J.; Eden, S.; Duflot, D.; Canneaux, S.; Delwiche, J.; Hubin-Franskin, M.-J. and Limão-Vieira, P.
Horvath, G.; Skalny, J. D.; Mason, N. J.; Klas, M.; Zahoran, M.; Vladoiu, R. and Manole, M.
Fulvio, D.; Sivaraman, B.; Baratta, G. A.; Palumbo, M. E. and Mason, N. J.
Kubala, D.; Drage, E.A.; Al-Faydhi, A.M.E.; Kočíšek, J.; Papp, P.; Matejčík, V.; Mach, P.; Urban, J.; Limão-Vieira, P.; Hoffman, S.V.; Matejčík, S. and Mason, N.J.
Giuliani, A.; Limão-Vieira, P.; Duflot, D.; Milosavljevic, A. R.; Marinkovic, B. P.; Hoffmann, S. V.; Mason, N.; Delwiche, J. and Hubin-Franskin, M.-J.
Eden, S.; Barc, B.; Mason, N. J.; Hoffmann, S. V.; Nunes, Y. and Limão-Vieira, P.
Smiałek, Małgorzata A.; Moore, Sharon A.; Shuker, David E. G. and Mason, Nigel J.
Marinković, B. P.; Blanco, F.; Šević, D.; Pejčev, V.; García, G.; Filipović, D. M.; Pavlović, D. and Mason, N. J.
Sivaraman, B.; Ptasińska, S.; Jheeta, S. and Mason, N. J.
Skalny, J. D.; Matejcik, S.; Orszagh, J.; Vladoiu, R. and Mason, N. J.
Thrower, J. D.; Burke, D. J.; Collings, M. P.; Dawes, A.; Holtom, P. D.; Jamme, F.; Kendall, P.; Brown, W. A.; Clark, I. P.; Fraser, H. J.; McCoustra, M. R. S.; Mason, N. J. and Parker, A. W.
Skalny, J. D.; Orszagh, J.; Mason, N. J.; Rees, J. A.; Aranda-Gonzalvo, Y. and Whitmore, T. D.
Mason, N. J.; Dawes, A.; Drage, E. A.; Webb, S. M.; McPheat, R. and Hayes, G.
Skalny, J. D.; Stoica, A.; Orszagh, J.; Vladoiu, R. and Mason, N. J.
Országh, J.; Skalný, J. D.; Matejčík, S. and Mason, N. J.
Deprez, N.; Eden, S.; Hoffman, S. V. and Mason, N. J.
Nobre, M.; Fernandes, A.; Ferreira da Silva, F.; Antunes, R.; Almeida, D.; Kokhan, V.; Hoffmann, S. V.; Mason, N. J.; Eden, S. P and Limão-Vieira, P.
Thrower, J. D.; Collings, M. P.; McCoustra, M. R. S.; Burke, D. J.; Brown, W. A.; Dawes, A.; Holtom, P. D.; Kendall, P.; Mason, N. J.; Jamme, F.; Fraser, H. J.; Clark, I. P. and Parker, A. W.
Sivaraman, Bhalamurugan; Jamieson, Corey S.; Mason, Nigel J. and Kaiser, Ralf I.
Mikoviny, T.; Skalny, J. D.; Orszagh, J. and Mason, N. J.
Skalny, J.D.; Matejcik, S.; Orszagh, J.; Vladoiu, R. and Mason, N. J.
Limao-Vieira, P.; Vasekova, E.; Giuliani, A.; Lourenco, J. M. C.; Santos, P. M.; Duflot, D.; Hoffmann, S. V.; Mason, N.J.; Delwiche, J. and Hubin-Franskin, M. J.
Dawes, Anita; Mukerji, Robin J.; Davis, Michael P.; Holtom, Philip D.; Webb, Sarah M.; Sivaraman, Bhalamurugan; Hoffmann, Søren V.; Shaw, David A. and Mason, Nigel J.
Holtom, P. D.; Dawes, A.; Davis, M. P.; Hoffmann, S. V.; Mukerji, R. J. and Mason, N. J.
Skalny, J.D.; Horvath, G. and Mason, N.
Drage, E. A.; Cahillane, P.; Hoffman, S. V.; Mason, N. J. and Limao-Vieira, P.
Eden, S.; Limao-Vieira, P.; Hoffmann, S. V. and Mason, N. J.
Bertin, M.; Caceres, D.; Lafosse, A.; Azria, R.; Davis, M. P.; Mason, N. J.; Balog, R. and Illenberger, E.
Orszagh, Juraj; Skalny, Ján D and Mason, Nigel J.
Vasekova, E.; Drage, E. A.; Smith, K. M. and Mason, N. J.
Mota, R.; Parafita, R.; Maneira, M. J. P.; Mason, N. J.; Garcia, G.; Ribeiro, P. A.; Raposo, M. and Limao-Vieira, P.
Limao-Vieira, P; Vasekova, Eva; Raja Sekhar, B. N.; Mason, N. J. and Hoffmann, S. V.
Mason, Nigel J.; Dawes, Anita; Holtom, Philip D.; Mukerji, Robin J.; Davis, Michael P.; Sivaraman, Bhala; Kaiser, Ralf I.; Hoffmann, Soren V. and Shaw, David A.
Motch, C.; Giuliani, A.; Delwiche, J.; Limao-Vieira, P.; Mason, N.J.; Hoffmann, S.V. and Hubin-Franskin, M.-J.
Vinodkumar, M.; Joshipura, K. N. and Mason, N. J.
Limao-Vieira, P.; Giuliani, A.; Delwiche, J.; Parafita, R.; Mota, R.; Duflot, D.; Flament, J. P.; Drage, E.; Cahillane, P.; Mason, N. J.; Hoffmann, S. V. and Hubin-Franskin, M. J.
Holtom, P.D.; Dawes, A.; Mukerji, R.J.; Davis, M.P.; Webb, S.M.; Hoffman, S.V. and Mason, N.J.
Mason, Nigel J.; Dawes, Anita; Holoton, Philip D.; Mukerji, Robin J.; Davis, Michael P.; Sivaraman, Bhalamurugan; Kaiser, Ralf I.; Hoffmann, Søren V. and Shaw, David A.
Mason, Nigel J.; Dawes, Anita; Holtom, Philip D.; Mukerji, Robin J.; Davis, Michael P.; Sivaraman, Bhalamurugan; Kaiser, Ralf I.; Hoffmann, Soren V. and Shaw, David A.
Fedor, J.; Cicman, P.; Coupier, B.; Feil, S.; Winkler, M.; Gluch, K.; Husarik, J.; Jaksch, D.; Farizon, B.; Mason, N. J.; Scheier, P. and Mark, T. D.
Vinodkumar, M.; Joshipura, K.N.; Limbachiya, C. and Mason, N.
Limao-Vieira, P.; Vasekova, Eva; Raja Sekhar, B. N.; Mason, N. J. and Hoffmann, S. V.
Rozum, I.; Limao-Vieira, P.; Eden, S.; Tennyson, J. and Mason, N. J.
Eden, S.; Limão-Vieira, P.; Hoffmann, S. V. and Mason, N.
Holtom, Philip D.; Bennett, Chris J.; Osamura, Yoshihiro; Mason, Nigel J. and Kaiser, Ralf I.
Mason, N.J.; Dawes, A.; Mukerji, R.; Drage, E.A.; Vasekova, E.; Webb, S.M. and Limão-Vieira, P.
Limao-Vieira, P.; Blanco, F.; Oller, J. C.; Munoz, A.; Perez, J. M.; Vinodkumar, M.; Garcia, G. and Mason, N. J.
Antony, B.K.; Joshipura, K.N. and Mason, N.J.
Mota, R.; Parafita, R.; Giuliani, A.; Hubin-Franskin, M.-J.; Lourenco, J. M. C.; Garcia, G.; Hoffmann, S. V.; Mason, N. J.; Ribeiro, P. A.; Raposo, M. and Limao-Vieira, P.
Webb, S.M.; Jaksch, D.; McPheat, R.A.; Drage, E.; Vasekova, E.; Limao-Vieira, P.; Mason, N.J. and Smith, K.M.
Limão-Vieira, P.; Eden, S.; Kendall, P. A.; Mason, N. J.; Giuliani, A.; Heinesch, J.; Hubin-Franskin, M. -J.; Delwiche, J. and Hoffmann, S. V.
Abedi, A.; Cicman, P.; Coupier, B.; Gulejová, B.; Buchanan, G. A.; Marston, G.; Mason, N. J.; Scheier, P. and Märk, T. D.
Walker, Isobel C.; Palmer, Michael H.; Delwiche, Jacques; Hoffmann, Soren V.; Limao-Viera, P.; Mason, Nigel J.; Guest, Martyn F.; Hubin-Franskin, Marie-Jeanne; Heinesch, J. and Giuliani, A.
Eden, S.; Limão-Vieira, P.; Kendall, P. A.; Mason, N. J.; Delwiche, J.; Hubin-Franskin, M.-J.; Tanaka, T.; Kitajima, M.; Tanaka, H.; Cho, H. and Hoffmann, S. V.
Mikoviny, T.; Kocan, M.; Matejcik, S.; Mason, N.J. and Skalny, J.D.
Cicman, P.; Buchanan, G. A.; Marston, G.; Gulejová, B.; Skalný, J. D.; Mason, N. J.; Scheier, P. and Märk, T. D.
Antony, B. K.; Joshipura, K. N. and Mason, N. J.
Skalny, Jan D.; Mikoviny, Tomas; Matejcik, Stefan and Mason, Nigel J.
Skalny, J. D.; Matejcik, S.; Mikoviny, T.; Eden, S. and Mason, N. J.
Webb, S. M. and Mason, N. J.
Sailer, W.; Pelc, A.; Limão-Vieira, P.; Mason, N.J.; Limtrakul, J.; Scheier, P.; Probst, M. and Märk, T.D.
Giuliani, A.; Walker, I.C.; Delwiche, J.; Hoffmann, S.V.; Limao-Viera, P.; Mason, N.J.; Heyne, B.; Hoebeke, M. and Hubin-Franskin, M.J.
Eden, S.; Limão-Vieira, P.; Hoffmann, S. V. and Mason, N. J.
Limão-Vieira, P.; Eden, S. and Mason, N. J.
Eden, S.; Limão-Vieira, P.; Kendall, P.; Mason, N. J.; Hoffmann, S. V. and Spyrou, S. M.
Giuliani, A.; Delwiche, J.; Hoffmann, S.V.; Limão-Vieira, P.; Mason, N.J. and Hubin-Franskin, M.-J.
Limão-Vieira, P.; Eden, S.; Mason, N. J. and Hoffmann, S. V.
Williart, A.; Kendall, P.A.; Blanco, F.; Tegeder, P.; García, G. and Mason, N.J.
Joshipura, K.N.; Vinodkumar, M.; Antony, B.K. and Mason, N.J.
Pelc, A.; Sailer, W.; Scheier, P.; Mason, N.J.; Illenberger, E. and Märk, T.D.
Mason, N. J.; Limão-Vieira, P.; Eden, S.; Kendall, P.; Pathak, S.; Dawes, A.; Tennyson, J.; Tegeder, P.; Kitajima, M.; Okamoto, M.; Sunohara, K.; Tanaka, H.; Cho, H.; Samukawa, S.; Hoffmann, S. V.; Newnham, D. and Spyrou, S. M.
Limão-Vieira, P.; Kendall, P. A.; Eden, S.; Mason, N. J.; Heinesch, J.; Hubin-Franskin, M.-J.; Delwiche, J. and Giuliani, A.
Limão-Vieira, P.; Eden, S.; Kendall, P. A.; Mason, N. J. and Hoffmann, S. V.
Pathak, Shashi K. and Mason, Nigel J.
Limão Viera, P.; Eden, S.; Kendall, P. A.; Mason, N. J. and Hoffmann, S. V.
Pelc, A.; Sailer, W.; Scheier, P.; Mason, N.J. and Märk, T.D.
Pelc, Andrzej; Sailer, Wolfgang; Scheier, Paul; Probst, Michael; Mason, Nigel J.; Illenberger, Eugen and Märk, Tilmann D.
Hubin-Franskin, M-J.; Delwiche, J.; Giuliani, A.; Ska, M-P.; Motte-Tollet, F.; Walker, I.C.; Mason, N.J.; Gingell, J.M. and Jones, N.C.
Hanel, G.; Fedor, J.; Gstir, B.; Probst, M.; Scheier, P.; Mrk, T.D.; Tegeder, P. and Mason, N.J.
Probst, M.; Hermansson, K.; Urban, J.; Mach, P.; Muigg, D.; Denifl, G.; Fiegele, T.; Mason, N.J.; Stamatovic, A. and Mark, T.D.
Sailer, W.; Drexel, H.; Pelc, A.; Grill, V.; Mason, N.J.; Illenberger, Eugen; Skalny, J.D.; Mitoviny, T.; Scheier, P. and Märk, T.D.
Mason, N.J.; Skalny, J.D. and Hadj-Ziane, S.
Pablos, J.L.d; Kendall, P.A.; Tegeder, P.; Williart, A.; Blanco, F.; Garca, G. and Mason, N.J.
Rozum, I.; Mason, N.J. and Tennyson, J.
Kitajima, M.; Okamoto, M.; Sunohara, K.; Tanaka, H.; Cho, H.; Samukawa, S.; Eden, S. and Mason, N. J.
Baluja, K.L.; Mason, N.J.; Morgan, L.A. and Tennyson, J.
Kendall, P.A. and Mason, N.J.
Sailer, Wolfgang; Tegeder, Petra; Probst, Michael; Drexel, Herwig; Grill, Verena; Scheier, Paul; Mason, Nigel J.; Illenberger, Eugen and Mark, Tilmann D.
Fiegele, T.; Mason, N.; Foltin, V.; Lukac, P.; Stamatovic, A.; Scheier, P. and Mark, T.D.
Mason, N.J.; Jones, N.C.; Kaminski, L.; Osborne, B.A.; Marston, G.; Fernandez, M.A.; Walker, I.C.; Seddon, E.A.; Ballard, J. and Newnham, D.A.
Drexel, H.; Senn, G.; Fiegele, T.; Scheier, P.; Stamatovic, A.; Mason, N.J. and Mrk, T.D.
Bolsa Ferruz, M.; Ivošev, V.; Haume, K.; Ellis-Gibbings, L.; Traore, A.; Thakare, V.; Rosa, S.; de Vera, Pablo; Tran, V.-L.; Mika, A.; Boscolo, D.; Grellet, S.; Verkhovtsev, Alexey; Huber, Bernd A.; Butterworth, K. T.; Prise, K. M.; Currell, F. J.; Mason, Nigel J.; Golding, J.; Scifoni, E.; Garcia, Gustavo; Boschetti, F.; Lux, F.; Tillement, O.; Louis, C.; Stokbro, K.; Solov'yov, Andrey V. and Lacombe, S.
Eden, S.; Limao Vieira, P. and Mason, N.J.
Dawes, A.; Mason, N.J.; Tegeder, P. and Holtom, P.
Eden, S.; Limão-Vieira, P.; Mason, N. J.; Kitajima, M.; Okamoto, M.; Tanaka, H.; Newnham, D. and Hoffmann, S.
ISBN : 9780306487019 | Publisher : Kluwer Academic/Plenum Publishers | Published : New York, NY U.S.
Dawes, Anita; Holtom, Philip and Mason, Nigel J.
Mason, N.; Capova, K. A.; Laine, P.; Losiak, A.; Martins, Z.; Noack, L. and Smith, K.
Whelan, Colm T. and Mason, Nigel J. eds.
Collings, M. P.; McCoustra, M. R. S.; Brown, W. A.; Chakarov, D.; Cuppen, H. M.; Field, D.; Field, T. A.; Fraser, H. J.; Henning, Th.; Hornekær, L.; Jäger, C.; Lemaire, J.L.; Leto, G.; Linnartz, H.; Mason, N. J.; Millar, T. J.; Nyman, G.; Palumbo, M. E.; Paterson, M. J.; Price, S. D.; van Dishoeck, E. F.; Viti, S. and Zacharias, H.
Szymanska, E.; Nair, B.; Mason, N. and Krishnakumar, E.
Miljkovic, K.; Mason, N. J. and Zarnecki, J. C.
Skalny, Jan D; Orszagh, Juraj; Mason, Nigel; Rees, J.A.; Aranda-Gonzalvo, Y. and Whitmore, Terry D.
Mason, N. J.; Smialek, M. A.; Moore, S. A.; Folkard, M. and Hoffmann, S. V.
Skalny, J.D.; Horvath, G. and Mason, N.J.
Duffy, Maria K. D.; Lewis, Stephen R. and Mason, Nigel J.

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