Analysis of neutral hydrogenic emission spectra in a tokamak

Abstract: Balmer-α radiation by the excitation of thermal and fast neutral hydrogenic particles has been investigated in a magnetically confined fusion device, or tokamak, from the Korea Superconducting Tokamak Advanced Research (KSTAR). From the diagnostic point of view, the emission from thermal neutrals is associated with passive spectroscopy and that from energetic neutrals that are usually injected from the outside of the tokamak to the active spectroscopy. The passive spectroscopic measurement for the thermal Balm… Show more

“…For example, the core density in the KSTAR Tokamak is ∼ × 2 6 10 13 cm −3 , while the magnetic field is ∼ 2 3 T, from which ω ω / c p is of order unity [15]. In the high density plasma with > n 10 e 18 cm −3 , which typically appears in laser-plasma interaction, a strong transient magnetic field is commonly generated by a relativistic electron current [14]. When a pump pulse is assumed to be focused to the diffraction limit, i.e.…”

Measurement of local density and magnetic field of a magnetized plasma using Raman scattering from a focused laser pulse

“…For example, the core density in the KSTAR Tokamak is ∼ × 2 6 10 13 cm −3 , while the magnetic field is ∼ 2 3 T, from which ω ω / c p is of order unity [15]. In the high density plasma with > n 10 e 18 cm −3 , which typically appears in laser-plasma interaction, a strong transient magnetic field is commonly generated by a relativistic electron current [14]. When a pump pulse is assumed to be focused to the diffraction limit, i.e.…”

Measurement of local density and magnetic field of a magnetized plasma using Raman scattering from a focused laser pulse

Design of a multi-channel polarization-preserving optical system for the KSTAR motional Stark effect diagnostic

KSTAR plasma commissioning to support the tokamak physics experiments