| 1. | The nd : yag laser illumination ranged from 20 to 60 w
动物模型的选择为猪肝及鸡冠。 |
| 2. | When the surface temperature during laser illumination reached 36 - 45 , a 30 - 100 m / sec cryogen spurt was delivered
利用红外线温度检测回馈系统来控制冷媒喷射出的时间。 |
| 3. | In chapter 3 , an 1 - d hydrodynamic code - hyades is utilized to simulate shocks in direct laser illumination or flyer impact
在第三章,利用一维流体力学程序对不同的实验条件进行了分析,得到一些冲击波的基本特征,给出了靶的设计原则。 |
| 4. | In conclusion , dynamic cooling is effective in protecting the epidermis and papillary dermis , while achieving deep tissue photocoagulation during nd : yag laser illumination
因此,在铷雅铬激光对深部组织造成光凝疗效的同时喷射冷却系统可有效的保护表皮。 |
| 5. | In conclusion , dynamic cooling is effective in protecting the epidermis and papillary dermis , while achieving deep tissue photocoagulation during nd : yag laser illumination
因此,在铷雅铬雷射对深部组织造成光凝疗效的同时喷射冷却系统可有效的保护表皮。 |
| 6. | Nd : yag laser illumination resulted in deep ( up to 1 . 0 0 . 2 mm ) tissue photocoagulation , while dynamic cooling preserved the overlying epidermis and papillary dermis
本实验结果显示,铷雅铬雷射可造成1 . 0 0 . 2豪米深度的组织破坏同时喷射冷却仍可保持表皮之完整无伤。 |
| 7. | The purpose of our study is to examine the effectiveness of dynamic cooling in protecting superficial tissue structures during continuous nd : yag laser illumination of in vivo and ex vivo models for hemangiomas
因此,吾人设计出在毫秒间喷射式冷却系统配合激光的照射将局部表皮冷却下来。 |
| 8. | The purpose of our study is to examine the effectiveness of dynamic cooling in protecting superficial tissue structures during continuous nd : yag laser illumination of in vivo and ex vivo models for hemangiomas
因此,吾人设计出在毫秒间喷射式冷却系统配合雷射的照射将局部表皮冷却下来。 |
| 9. | It is difficult to track air targets in complex background . active laser illumination is an important method to improve the stability of target extraction and the accuracy of character calculation
在跟踪中采用主动发射的照明激光照射目标,对提高目标特征提取的可靠性和精度具有重要意义。 |
