人工晶体学报
人工晶體學報
인공정체학보
2007年
5期
967-970
,共4页
任国浩%李焕英%陆晟%丁栋舟%冯鹤%王广东
任國浩%李煥英%陸晟%丁棟舟%馮鶴%王廣東
임국호%리환영%륙성%정동주%풍학%왕엄동
焦硅酸镥%晶体生长%发光性能
焦硅痠镥%晶體生長%髮光性能
초규산노%정체생장%발광성능
lutetium pyrosilicate%crystal growth%luminescence properties
铈掺杂的焦硅酸镥晶体(简写为LPS:Ce)是新近发现的一种具有潜在应用价值的无机闪烁晶体.本文用提拉法成功地生长出尺寸为φ15mm×40mm的LPS:Ce晶体.XRD结构测试表明,该晶体属于单斜晶系,C2/m空间群,晶体中分布有少量的LPS和石英颗粒包裹体.对从毛坯中切割出的无色透明晶体样品在室温下分别进行了透射光谱、紫外激发、X射线激发发射光谱和衰减时间测试.结果表明,铈(Ce3+)离子掺杂使LPS晶体的紫外吸收边从175nm红移到350nm,紫外和X射线激发的荧光光谱中都可以分解出384nm和412nm两个发射峰,它们分别对应于电子从铈(Ce3+)离子的5d轨道向4f轨道的两个能级(2F5/2和2F7/2)的辐射跃迁,从衰减曲线中可以拟合出一个38.75ns的时间常数.这些发光特征与该晶体独特的晶体结构密切相关.
鈰摻雜的焦硅痠镥晶體(簡寫為LPS:Ce)是新近髮現的一種具有潛在應用價值的無機閃爍晶體.本文用提拉法成功地生長齣呎吋為φ15mm×40mm的LPS:Ce晶體.XRD結構測試錶明,該晶體屬于單斜晶繫,C2/m空間群,晶體中分佈有少量的LPS和石英顆粒包裹體.對從毛坯中切割齣的無色透明晶體樣品在室溫下分彆進行瞭透射光譜、紫外激髮、X射線激髮髮射光譜和衰減時間測試.結果錶明,鈰(Ce3+)離子摻雜使LPS晶體的紫外吸收邊從175nm紅移到350nm,紫外和X射線激髮的熒光光譜中都可以分解齣384nm和412nm兩箇髮射峰,它們分彆對應于電子從鈰(Ce3+)離子的5d軌道嚮4f軌道的兩箇能級(2F5/2和2F7/2)的輻射躍遷,從衰減麯線中可以擬閤齣一箇38.75ns的時間常數.這些髮光特徵與該晶體獨特的晶體結構密切相關.
시참잡적초규산노정체(간사위LPS:Ce)시신근발현적일충구유잠재응용개치적무궤섬삭정체.본문용제랍법성공지생장출척촌위φ15mm×40mm적LPS:Ce정체.XRD결구측시표명,해정체속우단사정계,C2/m공간군,정체중분포유소량적LPS화석영과립포과체.대종모배중절할출적무색투명정체양품재실온하분별진행료투사광보、자외격발、X사선격발발사광보화쇠감시간측시.결과표명,시(Ce3+)리자참잡사LPS정체적자외흡수변종175nm홍이도350nm,자외화X사선격발적형광광보중도가이분해출384nm화412nm량개발사봉,타문분별대응우전자종시(Ce3+)리자적5d궤도향4f궤도적량개능급(2F5/2화2F7/2)적복사약천,종쇠감곡선중가이의합출일개38.75ns적시간상수.저사발광특정여해정체독특적정체결구밀절상관.
Cerium-doped lutetium pyrosilicate (LPS:Ce) crystal is a new found inorganic scintillator with promising scintillation properties. A boule with dimension of φlSmm × 40mm was grown successfully by using the Czochralski method. It's crystal structure was determined to be monoclinic with space group of C2/m and some inclusions was found to be composed of LPS and quartz. The optical transmission, UV and X-ray excited emission spectra, as well as decay curves were measured at room temperature. The cutoff edge of LPS:Ce crystals shifts to 350nm after doped with cerium ions. Two emissions peaks, 384nm and 412nm can be fitted into in the UV and X-ray excited emission spectra. The decay time of the fluorescence can be fitted with one exponential terms, 38.75ns, these two emission result from the transition of electrons from 5d to two ground levels (2F5/2 and 2F7/2)of Cerium ions(Ce3+)in the LPS crystals. The difference of luminescence between LPS: Ce and LSO: Ce can be explained from the difference of the crystal structure of these two types of crystals.
