Room temperature spectral hole burning observed in Sm-doped mixed crystals

For next generation high density optical storage, extensive studies on persistent spectral hole burning (PSHB) have been performed, because they have a large potential for a high density frequency-domain optical data storage. PSHB has been observed at room temperature in Sm-doped crystals and glasse...

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Main Authors: Jin, Z.Z., Yu, B.Y., Bae, H.S., Byun, C.H., Kim, C.H., Jang, K.-W., Lee, J.I.
Format: Conference Proceeding
Language:English
Subjects:
Frequency
Laser excitation
Memory
Monitoring
Optical materials
Photonic crystals
Temperature
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creator Jin, Z.Z.
Yu, B.Y.
Bae, H.S.
Byun, C.H.
Kim, C.H.
Jang, K.-W.
Lee, J.I.
description For next generation high density optical storage, extensive studies on persistent spectral hole burning (PSHB) have been performed, because they have a large potential for a high density frequency-domain optical data storage. PSHB has been observed at room temperature in Sm-doped crystals and glasses. Among them, glasses are considered to be more favorable than single crystals, due to their wide inhomogeneous line width and easy process for mass production. In the study, we developed a new glass mixture which shows room temperature PSHB with a inhomogeneous line width broadened up to 70 cm/sup -1/. The PSHB was characterized by investigating the time decay pattern of fluorescence and the excitation spectra.
doi_str_mv 10.1109/CLEOPR.1999.811570
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subjects Frequency
Laser excitation
Memory
Monitoring
Optical materials
Photonic crystals
Temperature
title Room temperature spectral hole burning observed in Sm-doped mixed crystals
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