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Polydimethylsiloxane-based optofluidics provides a powerful platform for a complete analytical lab-on-chip. Here, we report on a novel on-chip laser source that can be integrated with sample preparation and analysis functions. A corrugated sidewall structure is integrated into a microfluidic channel to form a distributed feedback (DFB) laser using rhodamine 6G dissolved in an ethylene glycol and water solution. Lasing is demonstrated with a threshold pump power of 87.9 µW, corresponding to a pump intensity of . Laser threshold and output power are optimized with respect to rhodamine 6G concentration and core index and found to be in good agreement with a rate equation model. Additionally, the laser can be switched on and off mechanically using a pneumatic cell inducing positive pressure on the grating.
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Ganjalizadeh, V.; Meena, G.G.; Stott, M.A.; Schmidt, H.; Hawkins, A.R. (, OSA Technical Digest (Optical Society of America, 2019))
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Black, Jennifer A.; Hamilton, Erik; Hueros, Raul A.; Parks, Joshua W.; Hawkins, Aaron R.; Schmidt, Holger (, IEEE Journal of Selected Topics in Quantum Electronics)
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Black, JA. (, OSA Advanced Photonics Congress (AP) 2019 (IPR, Networks, NOMA, SPPCom, PVLED))
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Jain, A; Meena, G. G.; Parks, J. W.; Stambaugh, A.; Patterson, J. L.; Hawkins, A. R.; Schmidt, H. (, 2018 IEEE Photonics Conference (IPC))
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Stambaugh, Alexandra; Parks, Joshua W.; Stott, Matthew A.; Meena, Gopikrishnan G.; Hawkins, Aaron R.; Schmidt, Holger (, Biomedical Optics Express)
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