原子与分子物理学报
原子與分子物理學報
원자여분자물이학보
CHINESE JOURNAL OF ATOMIC AND MOLECULAR PHYSICS
2001年
1期
13-16
,共4页
王全明%李可华%冯兴亚%王恩耀
王全明%李可華%馮興亞%王恩耀
왕전명%리가화%풍흥아%왕은요
杂质VUV辐射%激光吹气%低杂波电流驱动
雜質VUV輻射%激光吹氣%低雜波電流驅動
잡질VUV복사%격광취기%저잡파전류구동
在HL-lM装置上利用激光吹气技术,在等离子体边缘瞬态注入少量Al杂质粒子,通过对真空紫外光谱和软X射线区的杂质辐射测量,分别研究了欧姆等离子体和低杂波电流驱动等离子体两种情况下,Al杂质粒子输运与约束特性。结果表明:在欧姆等离子体和低杂波电流驱动等离子体两种情况下,等离子体中心区,在没有MHD锯齿震荡和有MHD锯齿震荡非锯齿破裂期间,杂质粒子输运基本上受新经典规律支配;在有MHD锯齿震荡锯齿破裂期间,杂质粒子输运受MHD不稳定性支配,但其时间很短(通常小于300μs),所以在这种情况下,杂质粒子输运的平均效应比新经典值稍大。而约束区杂质粒子输运则比新经典的值大很多,是反常的。在一定条件下低混杂波电流驱动可以改善等离子体粒子约束。
在HL-lM裝置上利用激光吹氣技術,在等離子體邊緣瞬態註入少量Al雜質粒子,通過對真空紫外光譜和軟X射線區的雜質輻射測量,分彆研究瞭歐姆等離子體和低雜波電流驅動等離子體兩種情況下,Al雜質粒子輸運與約束特性。結果錶明:在歐姆等離子體和低雜波電流驅動等離子體兩種情況下,等離子體中心區,在沒有MHD鋸齒震盪和有MHD鋸齒震盪非鋸齒破裂期間,雜質粒子輸運基本上受新經典規律支配;在有MHD鋸齒震盪鋸齒破裂期間,雜質粒子輸運受MHD不穩定性支配,但其時間很短(通常小于300μs),所以在這種情況下,雜質粒子輸運的平均效應比新經典值稍大。而約束區雜質粒子輸運則比新經典的值大很多,是反常的。在一定條件下低混雜波電流驅動可以改善等離子體粒子約束。
재HL-lM장치상이용격광취기기술,재등리자체변연순태주입소량Al잡질입자,통과대진공자외광보화연X사선구적잡질복사측량,분별연구료구모등리자체화저잡파전류구동등리자체량충정황하,Al잡질입자수운여약속특성。결과표명:재구모등리자체화저잡파전류구동등리자체량충정황하,등리자체중심구,재몰유MHD거치진탕화유MHD거치진탕비거치파렬기간,잡질입자수운기본상수신경전규률지배;재유MHD거치진탕거치파렬기간,잡질입자수운수MHD불은정성지배,단기시간흔단(통상소우300μs),소이재저충정황하,잡질입자수운적평균효응비신경전치초대。이약속구잡질입자수운칙비신경전적치대흔다,시반상적。재일정조건하저혼잡파전류구동가이개선등리자체입자약속。
the features of Al impurity transport and particle condinement have been studied with transient impurity injection at plasma edge in Ohmic discharge and low hybrid current drive on HL-lM tokamak respectively. A small amount of Al impurity was injected using laser below-off technique. The impurity spectrum and soft X-ray intensity were measured with VUV spectroscopy and with soft X-ray camera respectively. The studies show that in the core regime the impurity transport could be described by new-classical theory in the sawtooth-free discharges or in the sawtooth discharger except the sawtooth crash in both cases basically. During the sawtooth crash the impurity transport could be controlled by MHD instabilities in the core region. The effective time is so short(less than 300μs usually) that the average transport coefficients of the impurity transport is slight higher than that calculated from new-classical theory in the core region. In the confinement range the impurity diffusion coefficient is much higher than that estimated with new-classical theory. The impurity transport is anomalous. the particle confinement could be improved in a certain condition during the low hybrid current drive.
