D
David A. Jackson
Researcher at King's College London
Publications - 1166
Citations - 76015
David A. Jackson is an academic researcher from King's College London. The author has contributed to research in topics: Optical fiber & Interferometry. The author has an hindex of 136, co-authored 1095 publications receiving 68352 citations. Previous affiliations of David A. Jackson include University of California, Berkeley & University of Alberta.
Papers
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Book ChapterDOI
Immunohistochemical Methods for Measuring Tissue Lymphangiogenesis
TL;DR: This chapter focuses on the use of these markers for the immunohistochemical analysis of lymphangiogenesis in both frozen and paraffin-embedded tissue sections and discusses current protocols including newer versions employing biotin tyramide amplification and their associated problems.
Proceedings ArticleDOI
Time-division multiplexing exploiting low-coherence interferometry with a multimode laser diode source
TL;DR: In this article, a reflective array of optical fiber sensors multiplexed in time and with their status read using coherence sensing associated with directly modulated multimode laser diode illumination is investigated.
Journal Article
Separation of blood and lymphatic vascular networks is regulated by the hematopoietic signaling proteins SLP-76 and Syk.
Farhad Abtahian,Anastasia Guerriero,MinMin Lu,Z Rong,Attila Mócsai,Erin E. Myers,H Bin,David A. Jackson,Victor A. Ferrari,Victor L. J. Tybulewicz,Clifford A. Lowell,John J. Lepore,Gary A. Koretzky,Mark L. Kahn +13 more
Book Chapter
Wavelength-division-multiplexed in-fibre Bragg grating Fabry-Perot sensor system for quasi-distributed current measurement
TL;DR: In this article, a quasi-distributed grid current measurement using a wavelength-multiplexed in-fibre Bragg grating (FBG) Fabry-Perot sensor system interrogated by low-coherence interferometry (LCI) is demonstrated.
Proceedings ArticleDOI
Low-coherence Mach-Zehnder interrogation of fiber Fabry-Perot sensor incorporating balanced detection
TL;DR: In this article, a fiber-Fabry-Perot sensor is defined by Bragg-grating mirrors and dynamic strains applied to the sensor change the optical path length between the grating- mirrors and are encoded as a change in signal-phase.