激子发光 meaning in English
excitonic luminescence
Examples
- In low - dimension structure , the exciton binding energy will be lager than bulk material because of quantum effects , so excitons play an important role in optical characteristics of low - dimension zno
在低维结构中,由于量子限制效应,激子束缚能会变得更大,因而在低维zno材料中,激子发光在其光学特性中起着举足轻重的作用。 - Phosphorescent electroluminescent materials and devices are one of prime focuses of organic light - emitting device research in recent years due to their ability to efficiently utilize both singlet and triplet excitons and having higher efficiency
有机电致磷光材料可以同时利用单线态和三线态激子发光,具有发光效率高等优点,成为近年来研究的热点。 - Phosphorescent electroluminescent materials and devices are one of prime focuses of organic light - emitting device research in recent years due to their ability to efficiently utilize both singlet and triplet excitons and having higher efficiency
摘要有机电致磷光材料可以同时利用单线态和三线态激子发光,具有发光效率高等优点,成为近年来研究的热点。 - Due to the large exciton binding energy of 60mev , which ensures the high efficient excitonic emission at room temperature , it is regarded as one of the most promising materials for fabricating efficient ultraviolet ( uv ) and blue light emitting devices
由于氧化锌具有较高的激子束缚能( 60mev ) ,保证了其在室温下较强的激子发光,因而被认为是制作紫外半导体激光器的合适材料。 - Due to the large exciton binding energy of 60mev , which ensures the high efficient excitonic emission at room temperature , it is regarded as one of the most promising materials for fabricating efficient ultraviolet ( uv ) and blue light emitting devices . since the first observation of the stimulated ultraviolet emission at room temperature , zno has become another hotspot in the region of uv light emitting researching
氧化锌在室温条件下具有较高的激子束缚能( 60mev ) ,保证了其在室温下较强的激子发光,是制作紫外光电子器件的合适材料,自1997年首次发现zno室温紫外受激发射以来, zno研究已成为继gan之后紫外发射材料研究的又一研究热点。