发明申请
- 专利标题: Microfluidic Lasers
- 专利标题(中): 微流控激光器
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申请号: US11794919申请日: 2006-02-08
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公开(公告)号: US20100303119A1公开(公告)日: 2010-12-02
- 发明人: Brian T. Mayers , Richard S. Conroy , Dmitri V. Vezenov , Preston Snee , Yinthai Chan , Moungi G. Bawendi , George M. Whitesides
- 申请人: Brian T. Mayers , Richard S. Conroy , Dmitri V. Vezenov , Preston Snee , Yinthai Chan , Moungi G. Bawendi , George M. Whitesides
- 申请人地址: US MA Cambridge US MA Cambridge
- 专利权人: President and Fellows of Harvard College,Massachusetts Institute of Technology
- 当前专利权人: President and Fellows of Harvard College,Massachusetts Institute of Technology
- 当前专利权人地址: US MA Cambridge US MA Cambridge
- 国际申请: PCT/US06/04577 WO 20060208
- 主分类号: H01S3/213
- IPC分类号: H01S3/213 ; H01S3/05 ; H01S3/20
摘要:
The present invention generally relates to lasers comprising fluidic channels, such as microfluidic channels. In some instances, the channel contains two or more fluids. The fluids may remain non-mixed within the channel, for example, due to immiscibility and/or laminar flow within the channel. The fluids may be arranged in the channel such that light propagating in a first fluid is prevented by the second fluid from exiting the first fluid, for example, due to differences in the indexes of refraction (e.g., causing internal reflection of the fluid to occur). Thus, in one embodiment, a first fluid may be at least partially surrounded by a second fluid having a second index of refraction lower than the index of refraction of the first fluid. In some embodiments, the fluidic channel is used as a laser, for instance, a dye laser, i.e., a laser created by directing light at a dye to produce coherent light. The dye may be present in one or more fluids within the fluidic channel. The incident light (for example, created by another laser) may be directed at the channel from any angle. In some cases, laser light may be produced in a direction substantially aligned with the longitudinal axis of the channel. In some embodiments, the laser is free of mirrors, prisms, or gratings, or the laser may produce coherent light using a non-resonant photonic pathway. However, in other cases, mirrors, prisms, or gratings may be used to reflect light along the channel to enhance stimulated emission of coherent light. Another aspect of the invention includes optical diffractors, such as prisms or gratings, which can contain a fluid. The optical diffractors, in certain embodiments, are positioned to diffract light, such as coherent light, emanating from the fluidic channel. Still other aspects of the invention provide devices, kits, and methods of making and using such lasers.