Laser micromachining technology with 150 femtosecond pulses is developed to fabricate glass microfluidic devices. A short theoretical analysis of femtosecond laser ablation is reported to characterize the femtosecond laser micromachining. The ablated crater diameter is measured as a function of the number of laser pulses as well as laser fluence. Two different ablation regimes are observed and the transition between the regimes is dependent on both the laser fluence and the number of laser shots. Based on the ablation phenomena described, microfluidic devices are fabricated with commercially available soda lime glasses (76 mm * 26 mm * 1 mm, Knittel Glaser, Germany). In addition to a microchannel for microfluidics, the capillary as well as optical fiber for detecting is integrated on the same substrate. The substrate is successively packaged with a lid slide glass by a thermal direct bonding. The presented developments are suitable for fast turn-around design cycle and inexpensive procedure, which provide rapid prototyping of MEMS devices.
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机译:开发了具有150羽毛渗透脉冲的激光微机械技术,以制造玻璃微流体装置。据报道,对飞秒激光消融的短暂理论分析表征了飞秒激光微加工。作为激光脉冲的数量以及激光流量的函数测量烧蚀的火山口直径。观察到两个不同的消融制度,并且政权之间的过渡取决于激光频率和激光射击的数量。基于所描述的烧蚀现象,微流体装置用市售的苏打石灰玻璃(76 mm * 26 mm * 1 mm,针织品Glaser,德国)制造。除了用于微流体的微通道,毛细管以及用于检测的光纤还集成在同一基板上。通过热直接接合连续地封装基板用盖滑动玻璃包装。所提出的开发适用于快速扭转设计周期和廉价的程序,可提供MEMS器件的快速原型设计。
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