Title

Integrated Chemical Vapor Sensor based on Thin Wall Capillary Coupled Porous Glass Microsphere Optical Resonator

Abstract

A miniaturized chemical vapor sensor probe was developed using a porous glass microsphere (PGM) as the alignment-free optical microresonator. The porous microsphere was placed inside a thin wall silica capillary tube that was fusion-spliced to an optical fiber. The whispering gallery modes (WGMs) of the microsphere were excited by the evanescent field of the light propagating inside the capillary thin wall. Adsorption of chemical vapor molecules into the pores led to a refractive index change of the PGM and thus the resonance wavelength shift of the WGMs. To facilitate the in-taking of chemical vapor molecules into the PGM, a micro window was opened at the backend of the capillary tube using femtosecond laser micromachining. Ethanol vapor was used to demonstrate the probe for chemical vapor sensing. With a miniaturized size, integrated structure and reflection mode of operation, the proposed probe may find useful in many practical applications such as environmental monitoring and biomedical sensing.

Department(s)

Mining and Nuclear Engineering

Second Department

Electrical and Computer Engineering

Third Department

Chemistry

Sponsor(s)

National Institutes of Health (U.S.)

Comments

The work was supported by NIH under the Grant R21GM104696.

Keywords and Phrases

Capillary tubes; Chemical vapor deposition; Evanescent fields; Glass; Microfabrication; Microspheres; Molecules; Optical fibers; Optical resonators; Probes; Refractive index; Resonators; Thin walled structures; Tubes (components); Ultrashort pulses; Chemical vapor sensors; Environmental Monitoring; Femtosecond laser micromachining; Integrated structure; Porous structures; Refractive index changes; Resonance wavelengths; Thin walls; Whispering gallery modes; Thin wall capillary

International Standard Serial Number (ISSN)

0925-4005

Document Type

Article - Journal

Document Version

Citation

File Type

text

Language(s)

English

Rights

© 2015 Elsevier, All rights reserved.

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