Optical biochemical sensor based on half-circled microdisk laser diode

In this study, a half-circled cavity based microdisk laser diode is proposed and demonstrated experimentally for an integrated photonic biochemical sensor. Conventional microdisk sensors have limitations in optical coupling and reproducibility. In order to overcome these drawbacks, we design a novel...

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Published in:Optics express 2017-10, Vol.25 (21), p.24939-24945
Main Authors: Kim, Hong-Seung, Park, Jung-Min, Ryu, Jin-Hyuk, Kim, Sung-Bok, Kim, Chil-Min, Choi, Young-Wan, Oh, Kwang-Ryong
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cited_by cdi_FETCH-LOGICAL-c329t-c0038b171cea0fc078d3f0e10dce67744eb780fc571b70ecd579ea19a3d8c6673
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container_end_page 24945
container_issue 21
container_start_page 24939
container_title Optics express
container_volume 25
creator Kim, Hong-Seung
Park, Jung-Min
Ryu, Jin-Hyuk
Kim, Sung-Bok
Kim, Chil-Min
Choi, Young-Wan
Oh, Kwang-Ryong
description In this study, a half-circled cavity based microdisk laser diode is proposed and demonstrated experimentally for an integrated photonic biochemical sensor. Conventional microdisk sensors have limitations in optical coupling and reproducibility. In order to overcome these drawbacks, we design a novel half-circled micro disk laser (HC-MDL) which is easy to manufacture and has optical output directionality. The Q-factor of the fabricated HC-MDL was measured as 7.72 × 10 using the self-heterodyne method and the side mode suppression ratio was measured as 23 dB. Moreover, gas sensing experiments were performed using the HC-MDL sensor. A wavelength shift response of 14.21 pm was obtained for 100 ppb dimethyl methylphosphonate (DMMP) gas and that of 14.70 pm was obtained for 1 ppm ethanol gas. These results indicate the possibility of highly sensitive gas detection at ppb levels using HC-MDL. This attractive feature of the HC-MDL sensor is believed to be very useful for a wide variety of optical biochemical sensor applications.
doi_str_mv 10.1364/OE.25.024939
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title Optical biochemical sensor based on half-circled microdisk laser diode
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