基于GaSb增益芯片技术的扫频激光器，用于1.7 - 2.5μm波长范围内的非侵入性生物医学传感应用。

Swept-wavelength lasers based on GaSb gain-chip technology for non-invasive biomedical sensing applications in the 1.7-2.5 μm wavelength range.

作者信息

Vizbaras Augustinas, Šimonytė Ieva, Miasojedovas Arūnas, Trinkūnas Augustinas, Bučiūnas Tadas, Greibus Mindaugas, Naujokaitė Greta, Torcheboeuf Nicolas, Droz Serge, Boiko Dmitri, Dambrauskas Žilvinas, Gulbinas Antanas, Vizbaras Kristijonas

机构信息

UAB Brolis Semiconductors, Molėtų pl. 73, LT-14259 Vilnius, Lithuania.

Centre Suisse d'Electronique et de Microtechnique SA (CSEM), CH-2002 Neuchâtel, Switzerland.

出版信息

Biomed Opt Express. 2018 Sep 14;9(10):4834-4849. doi: 10.1364/BOE.9.004834. eCollection 2018 Oct 1.

DOI:10.1364/BOE.9.004834

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6179406/

Abstract

The infrared spectral region beyond 1.7 μm is of utmost interest for biomedical applications due to strong overtone and combination absorption bands in a variety of important biomolecules such as lactates, urea, glucose, albumin, etc. In this article, we report on recent progress in widely tunable swept-wavelength lasers based on type-I GaSb gain-chip technology, setting a new state-of-the-art in the 1.7 - 2.5 μm range laser sources. We provide an application example for the spectroscopic sensing of several biomolecules in a cuvette as well as an experimental demonstration of a non-invasive sensing of human serum albumin through the skin.

摘要

由于乳酸、尿素、葡萄糖、白蛋白等多种重要生物分子中存在强烈的泛音和组合吸收带，1.7μm以上的红外光谱区域在生物医学应用中极具吸引力。在本文中，我们报告了基于I型锑化镓增益芯片技术的宽可调谐扫频激光器的最新进展，在1.7 - 2.5μm范围内的激光源方面达到了新的技术水平。我们提供了一个在比色皿中对几种生物分子进行光谱传感的应用实例，以及通过皮肤对人血清白蛋白进行非侵入式传感的实验演示。

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