Nuclear fusion: What of the future?
                    ITER  ¼10)  (Q  boom.  tritium  of  Test  production  run  to required  of  capable  operation  FPP;  run  reliability  and  factor. multiplication  217
                    run  deployable  times.                         to      power
                    to   by  electricity             power  technology  steady-state  required  availability  plasma
                    required  volume¼840m 3  confinement  no  electrical  volume¼ 2500m 3  prototype  or  the  is


                    power  maintenance  times  (TBMs),  >  availability  plasma  plant achieving high availability. Self-sufficient in tritium, low overall net  pulses  long  power  high  Q  field,

                    electrical  plasma  magnets,  many  generated  low  power  Very  electrical  electricity;  magnetic  EUROfusion.


                       ¼5.7T,  of  technology        power  >20);  ¼ 5T,  output.  ≫  power  of  cost  toroidal
                    power  B  Superconducting  pulses  (Q  B ¼ 9m,  integrated  competitive  the  is  B  Organization,
             Continued  Targets  Fusion  ¼6m,  R  Plasma  production  Electrical  DEMO  R  Fully  electricity  Electrical  radius,  major  ITER EUROfusion,






             5.3    (2025)                                            Plant  tokamak
             Table  Machine  ITER                    DEMO  (2050s)  Fusion  Power  (2070s?)  the  is  R  Courtesy: