J. Bucalossi, A. Argouarch, V. Basiuk, O. Baulaigue, P. Bayetti et al., Feasibility study of an actively cooled tungsten divertor in Tore Supra for ITER technology testing, Fusion Engineering and Design, vol.86, pp.684-688, 2011.

E. Caschera, G. Dif-pradalier, and P. Ghendrih, Scaling law of the energy confinement time in global flux driven gyrokinetic simulations, 2019.

M. Coleman, Y. Hörstensmeyer, and F. Cismondi, DEMO tritium fuel cycle: performance, parameter explorations, and design space constraints, Fusion Engineering and Design, vol.141, pp.79-90, 2019.

M. Coleman, F. Maviglia, C. Bachmann, J. Anthony, G. Federici et al., On the EU approach for DEMO architecture exploration and dealing with uncertainties, Fusion Engineering and Design, pp.1158-1162, 2016.

J. W. Connor and J. B. Taylor, Scaling laws for plasma confinement, Nucl. Fusion, vol.17, issue.5, p.1047, 1977.

J. W. Connor and H. R. Wilson, A review of theories of the L-H transition, Plasma Phys. Control. Fusion, vol.42, pp.1-74, 2000.

J. P. Christiansen, J. G. Cordey, O. J. Kardaun, and K. Thomsen, Application of plasma physics constraints to confinement data, Nucl. Fusion, vol.31, issue.5, p.2117, 1991.

, Collection du Commissariat à l'énergie atomique. La fusion thermonucléaire contrôlée par confinement magnétique, Série Scientifique, 1987.

J. Duchateau, P. Hertout, and J. Johner, Discussion About the Size of a Future Fusion Demonstration Reactor: The Impact of the Toroidal Magnetic Field, IEEE Transactions on Applied Superconductivity, vol.17, p.1342, 2007.

J. Duchateau, P. Hertout, B. Saoutic, J. Artaud, L. Zani et al., Conceptual integrated approach for the magnet system of a tokamak reactor, Fusion Engineering and Design, vol.89, pp.2606-2620, 2014.

S. Entler, J. Horacek, T. Dlouhy, and V. Dostal, Approximation of the economy of fusion energy, Energy, vol.152, pp.489-497, 2018.

G. Federici, W. Biel, M. R. Gilbert, R. Kemp, N. Taylor et al., European DEMO design strategy and consequences for materials, Nuclear Fusion, vol.57, p.92002, 2017.

J. P. Freidberg, Plasma Physics and Fusion Energy, vol.1, 2007.

A. M. Garofalo, M. S. Chub, E. D. Fredrickson, M. Gryaznevich, T. H. Jensen et al., Resistive wall mode dynamics and active feedback control in DIII-D, Nuclear Fusion, vol.41, issue.9, p.1171, 2001.

. Ph, G. Ghendrih, C. Dif-pradalier, T. Norscini, D. Cartier-michaud et al., Self organisation of plasma turbulence: impact on radial correlation lengths, Journal of Physics: Conference Series, vol.561, p.12008, 2014.

M. Greenwald, Density limits in toroidal plasmas, Plasma Physics and Controlled Fusion, vol.44, issue.8, p.201, 2002.

, ITER Physics Basis Editors ITER Physics Basis Expert Groups on Confinement and Transport and Confinement Modelling and Database. Chapter 2: Plasma confinement and transport, vol.39, pp.2175-2249, 1999.

J. Johner, HELIOS: a zero-dimensional tool for next step and reactor studies, Fusion Science and Technology, vol.59, pp.308-349, 2011.

B. B. Kadomtsev, Tokamaks and dimensional analysis, Sov. J. Plasma Phys, vol.1, p.295, 1975.

M. Kovari, R. Kemp, H. Lux, P. Knight, J. Morris et al., PROCESS": A systems code for fusion power plants -Part1, Physics. Fusion Engineering and Design, vol.89, pp.3054-3069, 2014.

B. Lipschultz, F. I. Parra, and I. H. Hutchinson, Sensitivity of detachment extent to magnetic configuration and external parameters, Nuclear Fusion, vol.56, p.56007, 2016.

A. Loarte, B. Lipschultz, A. S. Kukushkin, G. F. Matthews, P. C. Stangeby et al., the ITPA Scrape-off Layer, and Divertor Physics Topical Group. Progress in the ITER Physics Basis Chapter, vol.47, pp.203-263, 2007.

T. Luce, Application of dimensionless parameter scaling techniques to the design and interpretation of magnetic fusion experiments, Plasma Phys. Control. Fusion, vol.50, p.43001, 2008.

H. Lux, R. Kemp, D. J. Ward, and M. Sertoli, Impurity radiation in DEMO systems modelling, Fusion Engineering and Design, vol.101, p.42, 2015.

Y. R. Martin, T. Takizuka, and I. Cdbm-h-mode, Power requirement for accessing the H-mode in ITER, Database Working Group, vol.123, p.1203, 2008.

C. Reux, L. D. Gallo, F. Imbeaux, J. Artaud, P. Bernardi et al., DEMO reactor design using the new modular system code SYCOMORE, Nucl. Fusion, vol.55, p.73011, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01462144

C. Reux, S. Kahn, L. Zani, B. Pégourié, N. Piot et al., DEMO design using the SYCOMORE system code: Influence of technological constraints on the reactor performances, Fusion Engineering and Design, vol.136, pp.1572-1576, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02115524

M. Siccinio, E. Fable, C. Angioni, S. Saarelma, A. Scarabosio et al., Impact of an integrated core/SOL description on the R and BT optimization of tokamak fusion reactors, Nuclear Fusion, vol.58, p.16032, 2018.

A. C. Sips, J. Schweinzer, T. C. Luce, S. Wolfe, H. Urano et al., The ASDEX Upgrade team, The DIII-D team, The C-Mod team, The JT-60U team, and ITPA-IOS TG members and experts. Assessment of the baseline scenario at q 95 ? 3 for ITER, Nuclear Fusion, vol.58, p.126010, 2018.

E. J. Strait, Stability of high beta tokamak plasmas, Physics of Plasmas, vol.1, p.1415, 1994.

F. Troyon, R. Gruber, H. Saurenmann, S. Semenzato, and S. Succi, MHD-Limits to Plasma Confinement. Plasma Physics and Controlled Fusion, vol.26, pp.209-215, 1984.

R. Wenninger, R. Kembleton, C. Bachmann, W. Biel, T. Bolzonell et al., The physics and technology basis entering European system code studies for DEMO, vol.57, p.16011, 2017.

J. Wesson and . Tokamaks, , 2004.

H. Zohm, On the minimum size of DEMO, Fusion Science and Technology, vol.58, p.613, 2010.

H. Zohm, C. Angioni, E. Fable, G. Federici, G. Gantenbein et al., On the physics guidelines for a tokamak DEMO, Nuclear Fusion, vol.53, p.73019, 2013.

H. Zohm, F. Träuble, W. Biel, E. Fable, R. Kemp et al., A stepladder approach to a tokamak fusion power plant, Nuclear Fusion, vol.57, p.86002, 2017.