The optimum conditions for access to and sustainment of H-mode plasmas and their expected plasma parameters in the pre-fusion power operation 1 (PFPO-1) phase of the ITER research plan, where the additional plasma heating will be provided by 20 MW of electron cyclotron heating, are assessed in order to identify key open R&D issues. The assessment is performed on the basis of empirical and physics-based scalings derived from present experiments and integrated modelling of these plasmas including a range of first-principle transport models for the core plasma. The predictions of the integrated modelling of ITER H-mode plasmas are compared with ITER-relevant experiments carried out at JET (low-collisionality high-current H modes) and ASDEX...
The ITER Scenario Modelling Working Group (ISM WG) is organized within the European Task Force on In...
The International Tokamak Physics Activity topical group on integrated operational scenarios has com...
In this paper we discuss a procedure to evaluate the fusion performance of ASDEX Upgrade discharges ...
The pre-fusion power operation 1 phase of ITER is planned to be characterized by electron cyclotron ...
Time-dependent integrated predictive modelling is carried out using the PTRANSP code to predict fusi...
Performance in H-mode DT plasmas in ITER with various choices of heating systems are predicted and c...
The dynamics for the transition from L-mode to a stationary high QDT H-mode regime in ITER is expect...
ITER operations require effective fuelling of the core plasma for conditions in which neutral dynami...
The build-up of plasma parameters following the H-mode transition in JET has been analysed in view o...
The investigation and optimisation of discharge scenarios with good energy confinement, high density...
Performance in H-mode DT plasmas in ITER with various choices of heating systems are predicted and c...
The International Tokamak Physics Activity topical group on integrated operational scenarios has com...
The build-up of plasma parameters following the H-mode transition in JET has been analysed in view o...
Since its inception in 2002, the International Tokamak Physics Activity topical group on Integrated ...
The ITER Scenario Modelling Working Group (ISM WG) is organized within the European Task Force on In...
The International Tokamak Physics Activity topical group on integrated operational scenarios has com...
In this paper we discuss a procedure to evaluate the fusion performance of ASDEX Upgrade discharges ...
The pre-fusion power operation 1 phase of ITER is planned to be characterized by electron cyclotron ...
Time-dependent integrated predictive modelling is carried out using the PTRANSP code to predict fusi...
Performance in H-mode DT plasmas in ITER with various choices of heating systems are predicted and c...
The dynamics for the transition from L-mode to a stationary high QDT H-mode regime in ITER is expect...
ITER operations require effective fuelling of the core plasma for conditions in which neutral dynami...
The build-up of plasma parameters following the H-mode transition in JET has been analysed in view o...
The investigation and optimisation of discharge scenarios with good energy confinement, high density...
Performance in H-mode DT plasmas in ITER with various choices of heating systems are predicted and c...
The International Tokamak Physics Activity topical group on integrated operational scenarios has com...
The build-up of plasma parameters following the H-mode transition in JET has been analysed in view o...
Since its inception in 2002, the International Tokamak Physics Activity topical group on Integrated ...
The ITER Scenario Modelling Working Group (ISM WG) is organized within the European Task Force on In...
The International Tokamak Physics Activity topical group on integrated operational scenarios has com...
In this paper we discuss a procedure to evaluate the fusion performance of ASDEX Upgrade discharges ...