Setsuhisa Tanabe mostly deals with Analytical chemistry, Phosphor, Ion, Doping and Luminescence. His Analytical chemistry research incorporates elements of Phonon, Spontaneous emission, Erbium and Quantum yield. To a larger extent, Setsuhisa Tanabe studies Optoelectronics with the aim of understanding Phosphor.
His work on Photoluminescence as part of general Optoelectronics research is often related to Luminous efficacy, thus linking different fields of science. Setsuhisa Tanabe interconnects Wavelength, Alkali metal, Electronegativity and Atomic physics in the investigation of issues within Ion. His studies in Doping integrate themes in fields like Composite number, Fluorescence, Band gap and Boron.
Setsuhisa Tanabe spends much of his time researching Analytical chemistry, Luminescence, Doping, Phosphor and Ion. Setsuhisa Tanabe combines subjects such as Mineralogy, Fluorescence and Ceramic with his study of Analytical chemistry. While the research belongs to areas of Luminescence, he spends his time largely on the problem of Photochemistry, intersecting his research to questions surrounding Absorption.
His research in Doping intersects with topics in Laser, Optics and Quantum efficiency. His research on Phosphor concerns the broader Optoelectronics. His biological study spans a wide range of topics, including Inorganic chemistry, Phonon, Atomic physics and Absorption spectroscopy.
Setsuhisa Tanabe mainly investigates Luminescence, Phosphor, Analytical chemistry, Ion and Persistent luminescence. His study in Luminescence is interdisciplinary in nature, drawing from both Wavelength, Photoluminescence, Excited state, Crystal field theory and Band gap. The concepts of his Phosphor study are interwoven with issues in Crystal, Excitation and Doping.
His Analytical chemistry study combines topics from a wide range of disciplines, such as Quenching, Single crystal, Rietveld refinement, Binding energy and Quantum efficiency. His work deals with themes such as Photodarkening and Physical chemistry, which intersect with Ion. His study in Persistent luminescence is interdisciplinary in nature, drawing from both Photochemistry, Penning trap and Erbium.
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Compositional dependence of Judd-Ofelt parameters of Er3+ ions in alkali-metal borate glasses.
S. Tanabe;T. Ohyagi;N. Soga;T. Hanada.
Physical Review B (1992)
Properties of transparent Ce:YAG ceramic phosphors for white LED
S. Nishiura;S. Tanabe;K. Fujioka;Y. Fujimoto.
Optical Materials (2011)
Optical transitions of rare earth ions for amplifiers: how the local structure works in glass
Journal of Non-crystalline Solids (1999)
Broad-band 1.5μm emission of Er3+ ions in bismuth-based oxide glasses for potential WDM amplifier
S. Tanabe;N. Sugimoto;S. Ito;T. Hanada.
Journal of Luminescence (2000)
Fluorescence properties of Er3+ ions in glass ceramics containing LaF3 nanocrystals
Setsuhisa Tanabe;Hideaki Hayashi;Teiichi Hanada;Noriaki Onodera.
Optical Materials (2002)
Persistent luminescence instead of phosphorescence: History, mechanism, and perspective
Jian Xu;Setsuhisa Tanabe.
Journal of Luminescence (2019)
Relation between the Ω6 intensity parameter of Er3+ ions and the 151Eu isomer shift in oxide glasses
S. Tanabe;T. Ohyagi;S. Todoroki;T. Hanada.
Journal of Applied Physics (1993)
Insight into the Thermal Quenching Mechanism for Y3Al5O12:Ce3+ through Thermoluminescence Excitation Spectroscopy
Jumpei Ueda;Jumpei Ueda;Pieter Dorenbos;Adrie J. J. Bos;Andries Meijerink.
Journal of Physical Chemistry C (2015)
Upconversion properties, multiphonon relaxation, and local environment of rare-earth ions in fluorophosphate glasses.
Setsuhisa Tanabe;Shigeo Yoshii;Kazuyuki Hirao;Naohiro Soga.
Physical Review B (1992)
Luminescence Characteristics of YAG Glass–Ceramic Phosphor for White LED
S. Fujita;A. Sakamoto;S. Tanabe.
IEEE Journal of Selected Topics in Quantum Electronics (2008)
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