Chinese Journal of Lasers, Volume. 45, Issue 9, 903001(2018)
Optical Properties of Dithienylethene and Its Applications in Super-Resolution Optical Storage
Figures & Tables(7)
Fig. 1. Optical paths. (a) Optical path for Z-scan; (b) optical path for detection of fluorescence spectrum
Fig. 2. Spectrum versus time and cycle diagram of fluorescence switch. (a) Ultraviolet-visible absorption spectrum versus UV irradiation time (inset: structure of diarylethene D1); (b) fluorescence spectrum versus time; (c) fluorescence spectrum conversed by ring-opening versus time under irradiation by 375 nm laser; (d) cycle diagram of fluorescence switch under alternating irradiation by ultraviolet and visible light
Fig. 3. Test results. (a) Fluorescence spectrum conversed by ring-opening via two-photon absorption versus time (inset: fluorescence intensity contrast versus ring-opening two-photon absorption conversion power density; (b) data and fitting results from ring-opening Z-scan; (c) schematic of photon-erasing effect of diarylethene D1 in super-resolution optical storage; (d) fluorescence-quenching spectrum of diarylethene D1
Fig. 4. Calculation results of effective absorption intensity of two-photon-dual-beam and absorption intensity resolution. (a) Effective absorption intensity when inhibition ratio is 2; (b) effective absorption intensity resolution under different fluorescence intensity contrast; (c) simulated longitudinal resolution of linear energy absorption intensity; (d) simulated longitudinal resolution of effective absorption intensity; (e) simulated effective absorption intensity after threshold control; (f) eff
Fig. 5. Schematic of optical recording and reading of diarylethene D1. (a) Super-resolution; (b) original
Table 1. Conversion power density threshold of ring-opening two-photon absorption and photon energy threshold versus wavelength
View tableTable 1. Conversion power density threshold of ring-opening two-photon absorption and photon energy threshold versus wavelength
Wavelength /nm 740 760 780 800 Power density threshold /(GW·cm-2) 107.36 173.53 198.75 251.87 Photon energy threshold /(1022 GJ·mol-1·cm-3) 1.896 2.91 3.175 3.92
Table 2. Fluorescence quenching contrast versus power density
View tableTable 2. Fluorescence quenching contrast versus power density
Power density / (GW·cm-2) Initial value /photon Quenching value /photon A Stable value under 375 nm irradiation /photon B 1.44 19631 2660 7.4 14707 1.3 2.53 14750 1868 7.9 5845 2.5 2.75 12535 1629 7.7 3452 3.6 2.89 19932 2486 8.0 4970 4.0 3.37 15282 1820 8.4 3572 4.3 3.86 14380 781 18.4 1847 7.8
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Liu Tiecheng, Zhang Li, Sun Jing, Zhong Yuwu, Wang Zhongyang, Guo Xinjun, Ruan Hao. Optical Properties of Dithienylethene and Its Applications in Super-Resolution Optical Storage[J]. Chinese Journal of Lasers, 2018, 45(9): 903001
Paper Information
Category: materials and thin films
Received: Feb. 9, 2018
Accepted: --
Published Online: Sep. 8, 2018
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