Scientists have harnessed elliptical micropillars to enhance the generation and detection of coherent acoustic phonons in the gigahertz range. This advancement represents a significant step forward in the development of…
TOPOLOGICAL HARMONICS OF HYPERSOUND: BREAKTHROUGH IN TOPOLOGICAL INTERFACE STATES OF ACOUSTIC WAVES AT THE NANOSCALE
At the intersection between nanophononics and topology, groundbreaking technological advancements are on the horizon. Physicists develop strategies to confine ultra-high frequency acoustic phonons and higher harmonics supporting topological properties. Understanding…
CHIRAL ACOUSTOPLASMONICS: THE HANDEDNESS OF NANOSCALE ACOUSTIC WAVES
Scientists conduct groundbreaking research in the field of nanophononics: Chiral Acoustoplasmonics. This cutting-edge technology harnesses the unique properties of plasmonic nanostructures to revolutionize the way we manipulate and control light…
EXPLORING THE FRONTIERS OF ULTRA-HIGH FREQUENCY ACOUSTIC PHONONS: INSIGHTS ON CUTTING-EDGE RESEARCH
High-frequency acoustic phonons break the paradigm of “bad guys” in solid-state physics, and take the lead in revolutionizing nanotechnology. Nanophononics, a rapidly developing field of nanotechnology, is the study of…
MANIPULATING HYPERSOUND IN MESOPOROUS MATERIALS
Physicists and chemists use mesoporous materials to confine ultra-high frequency acoustic phonons. The rapidly advancing field of Nanophononics focuses on the study of hypersound, acoustic waves in the gigahertz to…