A quasilinear particle flux is modelled based on gyrokinetic calculations. The particle flux is estimated by determining factors, namely, coefficients of off-diagonal terms and a particle diffusivity. In this paper, the methodology to estimate the factors is presented using a subset of JT-60U plasmas. First, the coefficients of off-diagonal terms are estimated by linear gyrokinetic calculations. Next, to obtain the particle diffusivity, a semi-empirical approach is taken. Most experimental analyses for particle transport have assumed that turbulent particle fluxes are zero in the core region. On the other hand, even in the stationary state, the plasmas in question have a finite turbulent particle flux due to neutral-beam fuelling. By combin...
In the present thesis we consider theoretical and experimental aspects of the turbulent transport wh...
The energy confinement time in controlled-fusion devices is governed by the turbulent evolution of l...
Quasilinear gyrokinetic calculations of the transport of fast alpha particles with a slowing-down eq...
Novel turbulent particle transport modelling has been proposed following joint analyses with gyrokin...
A novel quasilinear turbulent transport model DeKANIS has been constructed founded on the gyrokineti...
In fusion devices such as tokamaks, the achievement of good energy confinement is a key issue. The e...
In this work turbulent transport in JET-like plasma discharges is analyzed, with main emphasison imp...
Quasilinear turbulent transport models are a successful tool for prediction of core tokamak plasma p...
The gyrokinetic-based turbulent transport models are essential to predict density and temperature pr...
Hollow density profiles occur in connection with pellet fuelling and L to H transitions. A positive ...
The quest to harness fusion energy requires the successful modeling of plasma turbulence and transpo...
The development of a quasi-linear gyrokinetic transport model for tokamak plasmas, ultimately design...
With the enormous growth of high performance computing (HPC) over the last few decades, plasma physi...
In the present thesis we consider theoretical and experimental aspects of the turbulent transport wh...
The energy confinement time in controlled-fusion devices is governed by the turbulent evolution of l...
Quasilinear gyrokinetic calculations of the transport of fast alpha particles with a slowing-down eq...
Novel turbulent particle transport modelling has been proposed following joint analyses with gyrokin...
A novel quasilinear turbulent transport model DeKANIS has been constructed founded on the gyrokineti...
In fusion devices such as tokamaks, the achievement of good energy confinement is a key issue. The e...
In this work turbulent transport in JET-like plasma discharges is analyzed, with main emphasison imp...
Quasilinear turbulent transport models are a successful tool for prediction of core tokamak plasma p...
The gyrokinetic-based turbulent transport models are essential to predict density and temperature pr...
Hollow density profiles occur in connection with pellet fuelling and L to H transitions. A positive ...
The quest to harness fusion energy requires the successful modeling of plasma turbulence and transpo...
The development of a quasi-linear gyrokinetic transport model for tokamak plasmas, ultimately design...
With the enormous growth of high performance computing (HPC) over the last few decades, plasma physi...
In the present thesis we consider theoretical and experimental aspects of the turbulent transport wh...
The energy confinement time in controlled-fusion devices is governed by the turbulent evolution of l...
Quasilinear gyrokinetic calculations of the transport of fast alpha particles with a slowing-down eq...