| 1. | Two weak features located at 450nm and 492nm are observed
同时观测到两个新发射峰,分别位于450nm和492nm 。 |
| 2. | The wavelength of protein at which the fluorescence intensity of protein was maximal is 360nm but not 310nm
蛋白的最大荧光发射峰从310nm红移至360nm 。 |
| 3. | The fluorescence spectra ( fls ) of cml exited at 280nm and 295 nm showed a maximum peak at 335 nm
在激发光波长为280urn时, cml的最大荧光发射峰在335urn处。 |
| 4. | These emission peaks are located in the directions of the specular reflection of laser , the target normal and the back - reflection of laser respectively
这些超热电子发射峰分别沿着激光反射方向、靶法线方向和激光背反射方向。 |
| 5. | The ratio of the uv pl intensity to the visible pl intensity is 54 , indicating the high quality of zno quantum dot was acquired
光致发光谱中紫外发射峰积分强度和可见发射峰的积分强度比达到54 ,表明得到了较高质量的氧化锌量子点。 |
| 6. | The luminescence of samples attribute to the electronic transition in different energy lever of 4f configuration and the charge migration from o2 + to eu3 + by means of fluorescence spectrum
不同样品当中,不同发射峰的强度不同,从而使得不同样品的发光的颜色有所不同。 |
| 7. | The emission spectrum under 970 nm ld excitation have also been acquired . in this spectrum , only a strong emission near 1540 nm wavelength can be observed
我们在发射波长为970nm的半导体激光器激发下< wp = 6 >测量了这种材料的发射谱,观察到在红外波段1540nm处有强发射峰。 |
| 8. | The effective excite wavelength range is 350 - 355nm for the exciton - exciton collision peak and we observed a blue emission peak at about 472nm caused by zinc vacancy . 3
对激子-激子碰撞峰来说,有效的激发波长在350 - 355nm处,同时在472nm左右存在有一个由锌空位造成的深能级的蓝光发射峰。 |
| 9. | Under femtosecond pulse excitation at soonm , shg ( second - harmonic - generation ) emission , the two - photon excited photolumines - cence and a broad emission can easily be detected at 402 . 0nm , 472 . 5nm and 500 ~ 700nm , respectively
研究表明, znse单晶在402lun处产生了二次谐波发射,观察到472 . 5lun处的双光子发射峰和位于500一700iun的宽荧光发射。 |
| 10. | The fluorescence spectra of brown algae thylakoid membrane and ps i complex varied from higher plants , they had no fluorescence emission maximum at 730 nm . we concluded that 730 nm fluorescence was no more a symbol of ps i
在裙带菜纯化的类囊体膜和ps复合物的荧光光谱中,均未发现属于ps的730nm的荧光发射峰,指出730nm荧光峰不能作为ps的表征。 |
