Mechanical oscillation accelerating nucleation and nuclei growth in hard-sphere colloidal glass

Abstract: Crystallization from amorphous solids is generally caused by activating phonons in a wide frequency range during heat treatment. In contrast, the activation of phonons in a narrow frequency range using ultrasonic treatment also causes crystallization below the glass transition temperature. These behaviors indicate that crystallization is related to the atomic motion in the glass state, and it is suggested that the activation of specific atomic motion can cause crystallization without increasing temperature. In… Show more

“…Among applications of colloidal system, crystallization is a phenomenon that colloidal system has worked effectively 6 – 12 . In this study, we focus on crystallization especially on a flat surface for modeling growth of a thin film on a substrate.…”

Spontaneous nucleation on flat surface by depletion force in colloidal suspension

“…Among applications of colloidal system, crystallization is a phenomenon that colloidal system has worked effectively 6 – 12 . In this study, we focus on crystallization especially on a flat surface for modeling growth of a thin film on a substrate.…”

Spontaneous nucleation on flat surface by depletion force in colloidal suspension

“…In optical microscopy, development of the confocal optics improved the resolution in the depth direction significantly, 21) and the confocal microscopy is nowadays used widely. [22][23][24] In the confocal microscopy, sub-micron resolution is achieved in the depth direction. For example, the depth resolution becomes ∼ 250 nm from the theoretical formula, 25) when the numerical aperture of an objective lens is 1.4 and wavelength of the pump light is 400 nm.…”

Development of confocal picosecond ultrasonics for visualizing propagation of an acoustic wave

Study of the transition from amorphous to crystalline phase in a granular system under shearing and vibration