Photonic-crystal resonant effect using self-assembly ordered structures in magnetic fluid films under external magnetic fields

“…Finally, we would like to point out that Yang et al [46] have experimentally confirmed the magnetic-field-induced tunability of the band gap of the PC slab self-assembled in the MnFe 2 O 4 magnetic fluid lately. And Ge et al [17] have also demonstrated the highly tunable superparamagnetic colloidal photonic crystals by magneticfield-induced self-assembly with tunable range across the entire visible spectrum and rapid optical response.…”

Tuning the band gap of self-assembled superparamagnetic photonic crystals in colloidal magnetic fluids using external magnetic fields

“…Finally, we would like to point out that Yang et al [46] have experimentally confirmed the magnetic-field-induced tunability of the band gap of the PC slab self-assembled in the MnFe 2 O 4 magnetic fluid lately. And Ge et al [17] have also demonstrated the highly tunable superparamagnetic colloidal photonic crystals by magneticfield-induced self-assembly with tunable range across the entire visible spectrum and rapid optical response.…”

Tuning the band gap of self-assembled superparamagnetic photonic crystals in colloidal magnetic fluids using external magnetic fields

“…For the ordered structure made of MnFe 2 O 4 , n sol = 3.74, which is independent of the magnetic field [20]. Since the parameters f (or the area ratio A sol /A) and n MF are functions of the magnetic field, the index contrast ı can be tuned by the magnetic field.…”

Tunable photonic crystals based on MnFe2O4 magnetic fluids by magnetic fields

“…Утворення таких кластерів носить оборотний характер, тобто після припинення дії зовнішнього чин-ника вони руйнуються. Останнім часом з'явилася ціла низка робіт [7,21,22] по утворенню періодичних самоорганізованих структур в МР, що може бути використано як спосіб формування мікро-і нано-структурованих магнетиків [22]. В [23] було запропоновано мето-дику створення композитних матеріялів із наперед заданими влас-тивостями та здатністю змінювати ці властивості для конкретних потреб.…”

Features of Formation and Transformation of Fe$_{3}$O$_{4}$-Nanoparticle Clusters in a Magnetic Fluid under the Long-Term Magnetic-Field Pulse Action