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Chromatic Dispersion Based Wide-Band, Fiber-Coupled, Tunable Light Source for Hyperspectral Imaging
Hyperspectral imaging is a powerful label-free imaging technique that provides topological and spectral information at once. In this work, we have designed and characterized a hyperspectral source based on the chromatic dispersion property of off-the-shelf lenses and converted a supercontinuum laser...
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| Published in: | IEEE access 2021, Vol.9, p.50538-50545 |
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| container_end_page | 50545 |
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| container_title | IEEE access |
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| creator | Sharma, Gargi Naveed, Sheeza Kainat Parmar, Asha Singh, Kanwarpal |
| description | Hyperspectral imaging is a powerful label-free imaging technique that provides topological and spectral information at once. In this work, we have designed and characterized a hyperspectral source based on the chromatic dispersion property of off-the-shelf lenses and converted a supercontinuum laser light source into a hyperspectral imaging light source for 490 nm to 900 nm wavelength range with a spectral resolution of 3.5 nm to 18 nm respectively. The potential of the source was demonstrated by imaging two color dots with different absorption bands. Further, we generated the hypercube of the lily ovary and dense connective tissue and measured their spectral signature as a function of wavelength. We also imaged the lower tongue of a healthy volunteer at 540 nm, 630 nm, and white light. Our simple hyperspectral light source design can easily be incorporated in a standard endoscope or microscope to perform hyperspectral imaging. |
| doi_str_mv | 10.1109/ACCESS.2021.3068617 |
| format | article |
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In this work, we have designed and characterized a hyperspectral source based on the chromatic dispersion property of off-the-shelf lenses and converted a supercontinuum laser light source into a hyperspectral imaging light source for 490 nm to 900 nm wavelength range with a spectral resolution of 3.5 nm to 18 nm respectively. The potential of the source was demonstrated by imaging two color dots with different absorption bands. Further, we generated the hypercube of the lily ovary and dense connective tissue and measured their spectral signature as a function of wavelength. We also imaged the lower tongue of a healthy volunteer at 540 nm, 630 nm, and white light. 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Our simple hyperspectral light source design can easily be incorporated in a standard endoscope or microscope to perform hyperspectral imaging.</description><subject>Absorption spectra</subject><subject>Biomedical optical imaging</subject><subject>Broadband communication</subject><subject>chromatic dispersion</subject><subject>Connective tissues</subject><subject>Endoscopes</subject><subject>Hypercubes</subject><subject>Hyperspectral imaging</subject><subject>Imaging</subject><subject>Imaging techniques</subject><subject>Lenses</subject><subject>Light sources</subject><subject>Liquid crystals</subject><subject>Microscopy</subject><subject>Spectral resolution</subject><subject>Spectral signatures</subject><subject>spectroscopy</subject><subject>White light</subject><issn>2169-3536</issn><issn>2169-3536</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2021</creationdate><recordtype>article</recordtype><sourceid>ESBDL</sourceid><sourceid>DOA</sourceid><recordid>eNpNkU1P3DAQhiNUJBDlF3CxxLXZ-iN27COkUFZaicNScbQce7x4lY1TO3vg3-NtEKo1kj2jeZ_x6K2qG4JXhGD1867rHrbbFcWUrBgWUpD2rLqkRKiacSa-_fe-qK5z3uNyZCnx9rKy3VuKBzMHi36FPEHKIY7o3mRw6DU4qO_N6H6gx9BDqrt4nAYo6ctxNP0AaBN2bzPaxmOygHxM6On9hJjAzskMaH0wuzDuvlfn3gwZrj_vq-rP48NL91Rvnn-vu7tNbRmXc22YhxIKuFS9x8oIMMz2ThAQkjDXUi6McEKCbYgzkrbU9w4zr1qLJRXsqlovXBfNXk8pHEx619EE_a8Q006bVDYdQAveeE9lowqvabDte2lBtGUwVx43J9btwppS_HuEPOt92XIs39eUE9wQxSkvXWzpsinmnMB_TSVYn8zRizn6ZI7-NKeobhZVAIAvhWKSEybZB0mPikc</recordid><startdate>2021</startdate><enddate>2021</enddate><creator>Sharma, Gargi</creator><creator>Naveed, Sheeza Kainat</creator><creator>Parmar, Asha</creator><creator>Singh, Kanwarpal</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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In this work, we have designed and characterized a hyperspectral source based on the chromatic dispersion property of off-the-shelf lenses and converted a supercontinuum laser light source into a hyperspectral imaging light source for 490 nm to 900 nm wavelength range with a spectral resolution of 3.5 nm to 18 nm respectively. The potential of the source was demonstrated by imaging two color dots with different absorption bands. Further, we generated the hypercube of the lily ovary and dense connective tissue and measured their spectral signature as a function of wavelength. We also imaged the lower tongue of a healthy volunteer at 540 nm, 630 nm, and white light. 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| source | IEEE Xplore Open Access Journals |
| subjects | Absorption spectra Biomedical optical imaging Broadband communication chromatic dispersion Connective tissues Endoscopes Hypercubes Hyperspectral imaging Imaging Imaging techniques Lenses Light sources Liquid crystals Microscopy Spectral resolution Spectral signatures spectroscopy White light |
| title | Chromatic Dispersion Based Wide-Band, Fiber-Coupled, Tunable Light Source for Hyperspectral Imaging |
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