Advances in applications of time-domain Brillouin scattering for nanoscale imaging
Time-domain Brillouin scattering is an all-optical experimental technique based on ultrafast
lasers applied for generation and detection of coherent acoustic pulses on time durations of …
lasers applied for generation and detection of coherent acoustic pulses on time durations of …
Ultrafast nano generation of acoustic waves in water via a single carbon nanotube
Generation of ultra high frequency acoustic waves in water is key to nano resolution
sensing, acoustic imaging and theranostics. In this context water immersed carbon …
sensing, acoustic imaging and theranostics. In this context water immersed carbon …
Bulk modulus of across the ice VII–ice X transition measured by time-resolved x-ray diffraction in dynamic diamond anvil cell experiments
We have studied the H 2 O ice VII–ice X phase transition at room temperature by performing
three quasicontinuous synchrotron time-resolved x-ray-diffraction experiments in a dynamic …
three quasicontinuous synchrotron time-resolved x-ray-diffraction experiments in a dynamic …
[HTML][HTML] Time-domain Brillouin scattering for evaluation of materials interface inclination: Application to photoacoustic imaging of crystal destruction upon non …
Time-domain Brillouin scattering (TDBS) is a developing technique for imaging/evaluation of
materials, currently used in material science and biology. Three-dimensional imaging and …
materials, currently used in material science and biology. Three-dimensional imaging and …
Reactive sputter deposition of CoCrCuFeNi in nitrogen/argon mixtures
Thin films of (CoCrCuFeNi) N x were deposited by direct current reactive magnetron
sputtering. Two different targets were used. Thin films deposited from a solid near-equimolar …
sputtering. Two different targets were used. Thin films deposited from a solid near-equimolar …
Robustness of elastic properties in polymer nanocomposite films examined over the full volume fraction range
E Alonso-Redondo, L Belliard, K Rolle… - Scientific reports, 2018 - nature.com
Polymers with nanoparticle inclusions are attractive materials because physical properties
can be tuned by varying size and volume fraction range. However, elastic behavior can …
can be tuned by varying size and volume fraction range. However, elastic behavior can …
Elastic moduli and refractive index of γ-Ge3N4
CH Li, P Djemia, N Chigarev… - … of the Royal …, 2023 - royalsocietypublishing.org
Germanium nitride, having cubic spinel structure, γ-Ge3N4, is a wide band-gap
semiconductor with a large exciton binding energy that exhibits high hardness, elastic …
semiconductor with a large exciton binding energy that exhibits high hardness, elastic …
Single‐Crystal Elasticity of High‐Pressure Ice up to 98 GPa by Brillouin Scattering
Abstract Knowledge of the elasticity of high‐pressure ice is key to constructing the internal
structure of various planetary bodies. Here, we present direct experimental constraints on …
structure of various planetary bodies. Here, we present direct experimental constraints on …
Nondestructive characterization of polycrystalline 3D microstructure with time-domain Brillouin scattering
We employ gigahertz frequency ultrasonic waves to non-invasively image grain
microstructure in polycrystalline ceria. This technique, termed time-domain Brillouin …
microstructure in polycrystalline ceria. This technique, termed time-domain Brillouin …
[HTML][HTML] The extreme acoustic anisotropy and fast sound velocities of cubic high-pressure ice polymorphs at Mbar pressure
We presented the experimentally determined single-crystal elasticity model of ice up to 103
(3) GPa, based on the sound velocity measurements of high-P ice polymorphs within …
(3) GPa, based on the sound velocity measurements of high-P ice polymorphs within …