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PUBBLICAZIONI E DOCUMENTI RILEVANTI A PARTIRE DAL 2004

Stato attuale del progetto

2010

  • Near Term Perspectives for Fusion Research and New Contributions by the Ignitor Program

2008

  • Novel Developments for Fusion Research and the Ignitor Approach
  • Contributions by the Ignitor Program
  • New Approaches to Ignition and Developments for Fusion Energy Sources
  • Novel Developments for Fusion Research and the Ignitor Approach (Presentation)
  • Relevant Developments for the Ignitor Program and Burning Plasma Regimes of Special Interest
  • Ignitor and High Density Approach to Fusion Reactors
  • ICRH Physics in the Ignitor Experiment
  • Global Machine Design and Double X-point Equilibrium Configurations for Ignitor
    Effects of Radial Profiles in the H-Regimes for Ignitor
  • Adoption of MgB2 Superconducting Magnets for the Ignitor Machine and Relevant R&D
  • The ICRH System for the Ignitor Experiment
  • Installation of the Ignitor Machine at the Caorso Site
  • Analysis of the Ignitor Discharges with Double X-point Magnetic Configuration

2007

  • Relevant Advances of the Ignitor Program
  • Plasma Position Diagnostics for the Ignition Experiment Ignitor
  • X-ray Imaging for Plasma Position Control in the Ignition Experiment Ignitor
  • Relevant Advances of the Ignitor Program (Presentation)
  • The Compact, Four Barrel, High Speed Pellet Injector for the Ignitor Experiment
  • Magnetic and X-ray Diagnostics for Plasma Position Measurements in the Ignition Experiment Ignitor
  • Advances in the Ignitor Plasma Control
  • Plasma Position Diagnostics for the Ignition Experiment Ignitor
  • Ignitor Plasma Chamber Assembly Procedure and Welding Process
  • CATIA-V 3D Modeling for Design Integration of the Ignitor Machine Load Assembly
  • Plasma Regimes in the Double Null Configuration of Ignitor
  • ICRH Physics in the Ignitor Experiment

2006

  • Ignitor Project 2006
  • Highlights of the Physics and Technology for the Ignitor Experiment Members of the Ignitor Program
  • Advanced Fuel Cycles for Fusion Reactors: Passive Safety and Zero-Waste Operations
  • Physics with Reduced Parameters by the Ignitor Experiment
  • The Columbus Concept
  • Influence of Collisionality and Density Peaking on Thermal Transport
  • Groundwork for the Ignitor Experiment
  • Peaked Density Profiles and High Speed Pellet Injection for the Ignitor Burning Plasma Experiment
  • Validity of the Objectives and Solutions of the Ignitor Program
  • Ignitor Plasma Performance in the H-mode with the New Scalings
  • Importance of Ideal Ignition Conditions and Intermediate Objectives of Ignitor
  • ICRH Physics and Ignitor Experiments with Reduced Parameters
  • The ICRH System for the Ignitor Experiment
  • X-ray Imaging for Plasma Position Control in the Ignitor Experiment
  • Control Optimization for the Position and Shape of the Ignitor Plasma Column
  • Structural Analysis of the Ignitor Load Assembly
  • First Wall Design for the Ignitor Machine
  • Plasma Chamber Design and Fabrication Activities
  • The Columbus Concept
  • Structural Assessment of the Central Solenoid of Ignitor
  • Advances in the Fabrication of Toroidal Field Coil Prototypes
  • Ignitor Remote Handling System
  • Optimized operation and Electrical Power Supply System of Ignitor

2005

  • Connection between Energy Production and Climate: Role of Nuclear Energy and Fusion Research
  • Context of the Ignitor Experiment
  • The Ignitor Experiment: Deuterium-Tritium Phase
  • The ICRH Physics of the Ignitor Experiment
  • Structural Analysis of the Ignitor Load Assembly
  • Construction of Plates of the Toroidal Field Magnet of Ignitor and Relevant Advances
  • Plasma Chamber and First Wall for the Ignitor Experiment
  • Remote Handling System for Ignitor
  • Preliminary Analysis of Position and Shape Control of Ignitor Plasmas
  • Ignitor Edge Plasma Modeling
  • The Compact, Multiple Barrel, High Speed Pellet Injector of the Ignitor Experiment
    ICRH System for the Ignitor Experiment
  • Magnetic Diagnostics for Ignitor
  • Plasma Position Diagnostics for Ignitor
  • Plasma Radiation Cooling in the Ignitor Experiments
  • Simulation of Deuterium Pellet Ablation in Ignitor and other Fusion Experiments
  • The New High Speed Pellet Injector for the Ignitor Experiments

2004

  • Advances in the Ignitor Program
  • Dynamics of Igniting Plasmas
  • Edge Modeling for Ignitor
  • Effects of Density Profile Peaking on on Confinement
  • First Wall System and Plasma Chamber in Ignitor
  • Ignitor Performances in Plasmas without Tritium
  • Ignitor Vacuum Vessel Structural Design with Dynamic Loads Due to Plasma Disruption Events
  • MHD Stability of Low-N Modes in Small Aspect Ratio Tokomaks
  • Onset of the Thermonuclear Instability and Oscillatory States near Ignition
  • Optimization of the Current Distribution in the Ignitor Poloidal Field Coils During the Reference Operating Scenario
  • Optimization of Ignitor Operating Scenario at 11 MA
  • Physics of Igniting Plasmas and the Ignitor Approach
  • Spectrum of Experiments on Burning Plasmas: the Case for a US Ignition Device
  • The Columbus Experiment
  • The Ignitor Fast Pellet Injector
  • Transport in High Density Igniting Plasmas