物理学报
物理學報
물이학보
2013年
7期
277-283
,共7页
卢凌峰?%张新军%赵燕平%秦成明
盧凌峰?%張新軍%趙燕平%秦成明
로릉봉?%장신군%조연평%진성명
模式转换加热%离子回旋波加热%相位积分
模式轉換加熱%離子迴鏇波加熱%相位積分
모식전환가열%리자회선파가열%상위적분
mode conversion heating%ICRF%phase-integral
利用相位积分法,在传统的布登模型基础上,考虑了高场侧截止层的影响,构建了三体模型,求出了快波通过单一衰减层的传输系数、反射系数和模式转换系数.在双离子情况下,模拟的结果与Kazakov等人的结果相符合.针对EAST实验,将双离子模型推广至三离子模型,分析了不同相位、少子浓度、频率和纵场强度对快波模式转换效率的影响,为未来离子回旋加热实验提供参考.
利用相位積分法,在傳統的佈登模型基礎上,攷慮瞭高場側截止層的影響,構建瞭三體模型,求齣瞭快波通過單一衰減層的傳輸繫數、反射繫數和模式轉換繫數.在雙離子情況下,模擬的結果與Kazakov等人的結果相符閤.針對EAST實驗,將雙離子模型推廣至三離子模型,分析瞭不同相位、少子濃度、頻率和縱場彊度對快波模式轉換效率的影響,為未來離子迴鏇加熱實驗提供參攷.
이용상위적분법,재전통적포등모형기출상,고필료고장측절지층적영향,구건료삼체모형,구출료쾌파통과단일쇠감층적전수계수、반사계수화모식전환계수.재쌍리자정황하,모의적결과여Kazakov등인적결과상부합.침대EAST실험,장쌍리자모형추엄지삼리자모형,분석료불동상위、소자농도、빈솔화종장강도대쾌파모식전환효솔적영향,위미래리자회선가열실험제공삼고.
By considering the effect of high-field-side cutoff, the conventional Budden model has been extended to Triplet model. In this model, the reflection coefficient, transmission coefficient and mode conversion (MC) coefficient of the fast wave for a single evanescence region can be derived through using phase-integral method. Furthermore, numerical calculation of MC coefficient for double-ion species and three-ion species have been done. In the case of double ions, the result is consistent with Kazakov’s work. In addition, as an example of three ions plasma, (H, 3He)D plasma in tokamak EAST, simulations of the dependence of the MC efficiency on the magnetic field, microwave frequency and minority concentration for different antenna phasings are carried out. The results show how to choose proper phasing to reach an optimum MC efficiency. This result may provide a reference to improve ICRF heating efficiency.
