Add to ORKGIn advanced devices, such as a spherical torus, can reach a very high value, e.g. in the START [1], T~40 % and 0>100%. However, previous electromagnetic drift mode studies [2-5] only considered the coupling between the ion/electron temperature gradient modes (ITG/ETG modes) and shear Alfvén waves (SAWs), which is a good approximation only i
The structure of the drift instability was examined in several density regimes. Let sub e be the tot...
The anomalous particle and heat transport observed in magnetically confined plasmas is generally att...
The stability of ion temperature gradient (ITG) modes and the quasilinear fluxes driven by them are ...
An electron density gradient driven instability identified as the toroidal branch of the universal d...
Two main aspects concerning drift wave dynamics in linear, magnetized plasma devices are addressed i...
"The electrostatic drift wave theory is developed in the toroidal plasma with minority energetic par...
The influence of plasma geometry on the linear stability of electrostatic ion-temperature-gradient d...
International audienceThe fluid theory of a new type of electron temperature gradient instability is...
The effect of temperature gradient on the drift instabilities in an inhomogeneous high‐β plasma is d...
We have extended the linear fluid theory of electrojet plasma waves to the region where ion mag-neti...
The detailed analysis of stability of azimuthal oscillations in partially magnetized plasmas with cr...
The linear stability of high-toroidal-number drift-ballooning modes in tokamaks is investigated with...
The effects of atomic physics processes such as ionization, charge exchange, and radiation on the li...
A fluid theory of collisional electrostatic drift waves in a plasma slab with magnetic shear is pres...
International audienceA fluid dispersion theory in partially magnetised plasmas is analysed to exami...
The structure of the drift instability was examined in several density regimes. Let sub e be the tot...
The anomalous particle and heat transport observed in magnetically confined plasmas is generally att...
The stability of ion temperature gradient (ITG) modes and the quasilinear fluxes driven by them are ...
An electron density gradient driven instability identified as the toroidal branch of the universal d...
Two main aspects concerning drift wave dynamics in linear, magnetized plasma devices are addressed i...
"The electrostatic drift wave theory is developed in the toroidal plasma with minority energetic par...
The influence of plasma geometry on the linear stability of electrostatic ion-temperature-gradient d...
International audienceThe fluid theory of a new type of electron temperature gradient instability is...
The effect of temperature gradient on the drift instabilities in an inhomogeneous high‐β plasma is d...
We have extended the linear fluid theory of electrojet plasma waves to the region where ion mag-neti...
The detailed analysis of stability of azimuthal oscillations in partially magnetized plasmas with cr...
The linear stability of high-toroidal-number drift-ballooning modes in tokamaks is investigated with...
The effects of atomic physics processes such as ionization, charge exchange, and radiation on the li...
A fluid theory of collisional electrostatic drift waves in a plasma slab with magnetic shear is pres...
International audienceA fluid dispersion theory in partially magnetised plasmas is analysed to exami...
The structure of the drift instability was examined in several density regimes. Let sub e be the tot...
The anomalous particle and heat transport observed in magnetically confined plasmas is generally att...
The stability of ion temperature gradient (ITG) modes and the quasilinear fluxes driven by them are ...