Abstract
We have investigated hole-burning reactions of quinone derivatives in order to elucidate the substituent effects on hole multiplexing, the hole-formation wavelength range, and the electric-field effect. For dense multiple-hole formation, our investigation has proved that selecting the proper substituents and the proper combination of guest and host molecules is important. Consequently, in quinone-derivative systems, multiple-hole formations in wavelengths and in electric fields were achieved at 4.2 K.
© 1992 Optical Society of America
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