Persistent Spectral Hole-Burning on a Subnanosecond Time Scale by Donor-Acceptor Electron Transfer in Zinc-Tetraphenylporphine / p-Benzoquinone Systems
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概要
- 論文の詳細を見る
We report subnanosecond persistent spectral hole-burning in zinc-tetraphenylporphine / p-benzoquinone (ZnTPP / p-BQ) embedded in PMMA at liquid helium temperature. The hole formation mechanism is photoinduced one-photon electron transfer from photoexcited ZnTPP to ground state p-BQ. Spectral holes burnt in the present system are filled to half their initial depth when the temperature is increased to 25 K.
- 社団法人応用物理学会の論文
- 1992-02-28
著者
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SHIMADA Toshiyuki
NTT Opto-Electronics Laboratories
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SUZUKI Hiroyuki
NTT Opto-Electronics Laboratories
関連論文
- Persistent Spectral Hole-Burning in Semi-Crystalline Matrices Doped with Tetraphenylporphine
- Fast and Efficient Photon-Gated Burning of Persistent Spectral Holes in Donor-Acceptor Electron Transfer Systems
- Photochemical Hole Burning in Highly Doped TPP/PMMA Systems. Energy Migration and Stabilization of Burnt Holes for Subsequent Hole-Burnings : FUTURE TECHNOLOGY
- Persistent Spectral Hole-Burning on a Subnanosecond Time Scale by Donor-Acceptor Electron Transfer in Zinc-Tetraphenylporphine / p-Benzoquinone Systems
- Persistent Spectral Hole-Burning on a Subnanosecond Time Scale by Donor-Acceptor Electron Transfer in Zinc-Tetraphenylporphine/p-Benzoqtlinone Systems : Future Technology