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Professor Guillermo Velarde and the Madrid manifesto: a leap forward in ICF scientific collaboration

Published online by Cambridge University Press:  10 April 2019

N. Carpintero-Santamaría  and
J. Manuel Perlado
N. Carpintero-Santamaría*
Affiliation:
Instituto de Fusión Nuclear “Guillermo Velarde” (IFN GV) – UPM, Madrid, Spain Department of Energy Engineering, ETS de Ingenieros Industriales – Universidad Politécnica de Madrid (UPM), Madrid, Spain
J. Manuel Perlado
Affiliation:
Instituto de Fusión Nuclear “Guillermo Velarde” (IFN GV) – UPM, Madrid, Spain Department of Energy Engineering, ETS de Ingenieros Industriales – Universidad Politécnica de Madrid (UPM), Madrid, Spain
*
Author for correspondence: N. Carpintero-Santamaría, Department of Energy Engineering, ETS de Ingenieros Industriales – Universidad Politécnica de Madrid (UPM), Madrid, Spain. E-mail: natividad.csantamaria@upm.es
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Abstract

In 1988 Professor Guillermo Velarde, founder of the Instituto de Fusión Nuclear (IFN), chaired the 19th European Conference on Laser Interaction with Matter held in Madrid on 3–7 October 1988. About 170 scientists from Europe, the Soviet Union, United States, Japan, Canada, Israel, Australia, China, and South Africa participated in the ECLIM 88. ECLIM 88 was among ECLIM's series a turning point in inertial confinement fusion (ICF) research. The work already performed by different laboratories in Europe, Japan, and around the world had reached a level such that without explicitly expressing it, the collective scientific consensus wanted a change in the existing close policies in several ICF areas at large Laboratories in the USA, Russia, France, and UK.

Dr. Erik Storm from the US Lawrence Livermore National Laboratory proposed to Professor Velarde to write a letter to be signed by the participants of the ECLIM in favor of having an open international collaboration in ICF. Professor Velarde then suggested drawing up a manifesto instead of a letter because the name manifesto had bigger historical connotations. The manifesto received a very successful response among the conference participants and was signed by more than 130 scientists. Our paper aims at twofold objective: (1) to put into account the positive repercussions derived from the MADRID MANIFESTO in the ICF research and (2) to remember the figure of Professor Guillermo Velarde, the most influential physicist in nuclear fusion energy by inertial confinement along the 20th century. His inspiration and leadership in science contributed to make this world a safer and secure place and for us, his disciples and colleagues, an irreplaceable personality in our lives.

Keywords

DeclassificationGuillermo Velardeinertial confinement fusionMadrid Manifesto
Type
Research Article
Information
Laser and Particle Beams , Volume 37 , Issue 1 , March 2019 , pp. 141 - 158
Copyright
Copyright © Cambridge University Press 2019 

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Footnotes

Dulce et decorum est opus bene factum relinquere.

References

Broad, WJ (1988) Secret Advance in Nuclear Fusion Spurs a Dispute Among Scientists. The New York Times. Monday March 21, 1988.Google Scholar
Broad, WJ (1992) The (Bomb) Secret's Out. Foreign Moves to Harness Electricity From Fusion Forces U.S. to Open Up. Herald International Tribune. The Hague, September 29, 1992.Google Scholar
DOE Facts (1993) Questions and Answers. USA: Office of the Press Secretary. Department of Energy, pp. 4546.Google Scholar
DOE News (December 7, 1993) Energy Secretary Unveils Openness Initiative and Declassification of Inertial Confinement Fusion Information. R-93-254). USA: Press Secretary. Department of Energy.Google Scholar
Energy from Inertial Fusion (1995) International Atomic Energy Agency (IAEA). STI/PUB/944. Vienna.Google Scholar
Files of the Instituto de Fusión Nuclear “Guillermo Velarde” (IFN GV). ETSII – UPM. Madrid (Spain)Google Scholar
Hora, H and Miller, GH (2005) Edward Teller Lectures: Lasers and Inertial Fusion Energy, Vol. 13, LPRR. London, UK: London Imperial College Press.Google Scholar
Joint Soviet-United States Statement on the Summit Meeting in Geneva (November 21, 1985) http://www.presidency.ucsb.edu/ws/?pid=38086Google Scholar
Velarde, G (2007) Inertial confinement fusion research in Spain: from a difficult beginning to a hopeful future. In Velarde, G and Carpintero-Santamaría, N (eds), Inertial Confinement Nuclear Fusion: A Historical Approach by Its Pioneers. London, UK: Foxwell & Davies Ltd., pp. 187213. 542 pp.Google Scholar
Velarde, G, Mínguez, E and Perlado, JM (eds) (1988) Laser Interaction with Matter. Singapore: World Scientific Publishing Co. Pte. Ltd. 490 pp.Google Scholar
Velarde, G, Martínez-Val, JM, and Ronen, Y (1992) (eds) Nuclear Fusion by Inertial Confinement: A Comprehensive Treatise. Florida: CRC Press. 768 pp.Google Scholar
Watkins, JD (Admiral U.S. Navy Retired) (1990) Opening Address for the Thirteenth International Conference on Plasma Physics and Controlled Nuclear Fusion Research. The Secretary of Energy. Monday, October 1, 1990. Department of Energy. United States of America.Google Scholar